Refractory abrasive body containing chromium oxide and method of producing it

ABSTRACT

A new ceramic treatment process and product and, more particularly, a process for forming and treating and shaping and treating of porous skeletal bodies to produce hardened dimensionally stable end products at relatively low temperatures and the resulting materials produced thereby which comprises the steps of treating a porous skeletal body by impregnating the interstices of the porous body with a compound of a metal capable of being converted to an oxide in situ at relatively low temperatures, heating the body so impregnated at temperatures well below normal vitrification to a temperature of at least 600° F. and for a period of time sufficient to convert the compound impregnated therein to an oxide and repeating the impregnation and heating steps until the desired degree of hardness is obtained. The invention further contemplates the forming of the porous body from relatively finely divided materials which may be relatively pure powders, mixtures of powders or impure powders, including additives in the form of discrete particles, fibers, fillers and the like, which powders are molded and bound together or bound together and molded with a binder which may comprise the impregnating compound or other suitable binder prior to treatment.

This application is a continuation of U.S. Pat. Application Ser. No. 007,949 filed Feb. 2, 1970, now abandoned, as a division of U.S. Ser. No. 694,303, filed Dec. 28, 1967 issued as U.S. Pat. No. 3,789,096 on Jan. 29, 1974.

In Applicants' previously filed application, Ser. No. 642,704 filed June 1, 1967 and now abandoned in favor of continuation application Ser. No. 063,998, filed June 18, 1970, now U.S. Pat. No. 3,734,767 issued May 22, 1973, of which the present application is a continuation-in-part, Applicants disclosed the process of treating underfired porous partially vitrified relatively soft refractory ceramic which comprises the steps of shaping an underfired partially vitrified relatively soft refractory ceramic into a predetermined shape, impregnating the shaped ceramic with phosphoric acid and curing the impregnated ceramic at temperatures of at least 600° F., but below vitrification temperatures for a time sufficient to drive out the moisture and produce a hard ceramic. Also disclosed was a process of producing a chemically hardened ceramic body which comprised the steps of providing a structure of a porous underfired partially vitrified substantially pure machinable refractory ceramic oxide, impregnating the core with a metal compound capable of being converted to an oxide and curing the impregnated core at temperatures of 600° F. and above for a time sufficient to convert the impregnant to an oxide to harden the ceramic.

Ceramic materials normally undergo substantial dimensional changes during the usual firing or vitrification steps. Thus, it has heretofore been extremely difficult to produce precision parts or intricate shapes from ceramics. Precision parts had to be shaped slightly oversize before firing. After firing, the parts required further machining with diamond cutting wheels or by using lapping methods. Many intricate shapes were just not available since thin sections of parts would crack during firing.

In accordance with the invention, it has been found that underfired or so-called machinable grade refractory ceramics can be shaped while in the relatively soft state and then impregnated and heat treated to produce a ceramic having all the characteristics of a vitrified ceramic without the usual change in dimensions. The process of the instant invention appears to be useful in the treatment of such refractory ceramic materials as the oxides of aluminum, beryllium, zirconium, titanium, magnesium and the like. These materials in the commercially available machinable grade are quite soft and easily broken. Also, in the soft state, they can be readily cut with carbide cutting tools, drilled, filed, sanded and otherwise formed to practically any desired shape. One such aluminum and beryllium oxide material is available from Coors Poreclain Company of Golden, Colo. When the machinable ceramics are treated by the method of this invention, they become very hard, approximating highly vitrified ceramic and, in addition, will retain the original machined and pre-treated dimensions. The treated material becomes so hard that the only practical method to do further machining is with diamond cutting wheels or by using lapping techniques.

The commercial value of the instant invention is readily seen when it is recognized that close tolerances on many intricate vitrified ceramic parts can only be obtained by machining with diamond cutting methods after firing. This is the case since there is considerable shrinkage which occurs during the firing. Also, there are many desired shapes which cannot be economically cast or molded during the firing process. In addition, it is often not feasible to construct molding dies for small quantities of a particular part. The method of the present invention in contrast thereto permits easy machining of parts to exact tolerances and then hardening the part without change in original dimensions.

It has now been found that the hardening process may be equally applied to the hardening of non-sintered bodies. It has been found that the base refractory material can be prepared in a powdered form (such as ball-milled aluminum oxide) and simply pressed, molded, slip cast, extruded or otherwise processed so that the base oxide particles are packed into close proximity to provide a porous body. The hardening of the non-sintered bodies is essentially the same method as applied to the porous, partially sintered materials. The hardening is accomplished by impregnating the porous body with a metal compound, which may be in solution, which compound is capable of being converted to the metal oxide in situ at a temperature below sintering temperature in the range of from about 600° F. to about 1500° F. and heating the body to convert the compound to its oxide. The impregnation and cure cycle must be repeated at least for two cycles to provide any usable hardening. It has further been found that other finely divided materials, such as a powdered metal, oxide mixtures and the like will serve as the base material which may also contain additives such as glass or metal fibers or abrasive grains to provide special characteristics in the finished product.

It is, therefore, the principal object of this invention to provide an improved low temperature process for the forming and treating and shaping and treating of relatively soft porous bodies which avoids one or more of the disadvantages of prior art methods of producing close tolerance hardened shaped parts.

A further object of the present invention is to provide an improved low temperature process of producing hardened articles of manufacture of predetermined shapes, of predetermined characteristics and of predetermined dimensions.

Another object is to provide an improved low temperature method of producing articles of manufacture in close tolerance shapes of selected hardness, porosity and surface characteristics.

A still further object of the invention is to provide an improved process for the production of ceramic bearings capable of use with or without lubricants under unfavorable conditions.

A further object of the invention is to provide an improved process for the application of a refractory oxide coating to a substrate and/or the hardening of the oxide coating applied thereto.

A further object of the invention is to provide an improved low temperature process for the production of improved abrasive or polishing stones and grinding wheels which may include abrasive grain additives.

A further object of the invention is to provide a process for the production of a refractory ceramic oxide material having a negative temperature coefficient of electrical and heat conduction.

For a better understanding of the present invention, together with other and further objects thereof, reference is had to the following description taken with the drawings, and its scope will be pointed out in the appended claims.

FIGS. 1, 2 and 3 constitute a series of photographs of a pressed body of alumina powder with an increasing number of impregnation-cure cycles according to the present invention;

FIG. 4 is a photograph showing a grid at the same magnification as FIGS. 1-3;

FIG. 5 is a metallographic photograph at 200X magnification of a pressed body of Alcoa T-61(-325 mesh) alumina ball milled 48 hours and chemically hardened;

FIG. 6 is a 200X metallographic photograph of a pressed body of Alcoa T-61(-325 mesh) alumina ball milled 96 hours and chemically hardened;

FIG. 7 is a 200X metallographic photograph of a pressed body of beryllium oxide powder which has been chemically hardened;

FIG. 8 is a 200X metallographic photograph of a pressed body of chromium oxide powder which has been chemically hardened;

FIG. 9 is a 200X metallographic photograph of a pressed body of Alcoa T-61(-325 mesh) ball milled 96 hours with aluminum fibers added and chemically hardened;

FIG. 10 is a 200X metallographic photograph of a refractory oxide painted on a metal substrate and chemically hardened;

FIG. 11 is a photograph of a commercial sintered grinding wheel side by side with a grinding wheel made by the process of this invention;

FIG. 12 is a 300X metallographic photograph of a cross section through a commercial plasm sprayed chromia coating prior to treatment according to this invention; and,

FIG. 13 is a 300X photograph of the cross section of FIG. 12 after treatment.

This invention is directed to a process and product involving new types of materials that are formed by multiple chemical impregnations of a relatively soft porous body of finely divided refractory oxide base materials, each followed by a low temperature cure to convert the impregnant to an oxide. The resulting ceramic structure formed in this manner has been shown to exhibit extreme hardness, a high compressive strength and a dimensionally stable material over a wide temperature range. In addition, a number of these new ceramic materials show an inherently small coefficient of friction coupled with a very low wear rate characteristic.

Parts can be economically fabricated of this new material in a wide variety of intricate shapes and sizes. This is most easily accomplished by providing the base refractory material in a powdered form and packing the powder particles into close proximity by suitable means to provide a porous body of predetermined shape. The shaped pieces are then repeatedly chemically treated and cured at a temperature substantially below that used for normal ceramic vitrification.

One of the unique features of this chemical treatment and hardening method is that virtually no change occurs in the original dimensions of the shaped part during the hardening process. Therefore, expensive diamond machining of the finished hardened part is eliminated.

These new ceramic materials will withstand repeated water quenching from 1000° F. as well as prolonged exposure to temperature extremes of 2000° to -300° F. Mohs scale hardness is in excess of 9, normally being about equal to that of silicon carbide. Rockwell hardness can be as high as A-85 to A-90, with associated compressive strengths in excess of 125,000 psi.

In addition to their use for the manufacture of precision parts, many of these ceramics exhibit excellent characteristics for low friction and low wear rate bearing and seal applications; in particular, journal bearings, thrust bearings and sliding type bearings and seals. When used in this manner, lubrication may be by means of a wide variety of conventional and non-conventional lubricants. Among those successfully tested to date include: tap water, sea water, alcohol, kerosene, polyethylene glycol, trichlorethylene, lubricating oils, silicone fluids and liquid metals. Solid lubricants have been used with good results at temperatures up to about 2000° F. In addition, lightly loaded bearings have been operated for limited periods at high speed without lubrication.

Life tests of sleeve-type bearings have been and still are currently in progress. However, to date wear has been too low to obtain quantitative data, even after many months' time. Rub-shoe type wear rate tests have consequently been conducted and have shown exceptionally low wear rate characteristics. For example, a ceramic shoe of this invention riding on a ceramic wheel of the same material exhibited many times less wear than a bearing bronze shoe riding against a steel wheel using oil as the lubricating media. Also, unlike a conventional bronze-steel bearing combination, very heavy loads can be applied to many of the ceramic-to-ceramic material bearings without their showing any tendency toward galling, even when running with such poor lubricants as alcohol or water.

A special variation in treatment of this invention has also been found that will produce a honing or finishing material that appears to be superior in several respects to both natural and artifically produced grinding stones. For example, one such ceramic will remove metal far more rapidly than will an Arkansas stone, while at the same time producing a finer and more highly polished finish. Another ceramic material of this invention displays a wide variation in electrical and heat conduction with relatively small changes in temperature.

The basic method employed for producing the new ceramic materials consists of chemically impregnating a porous, refractory oxide structure followed by a low temperature cure. The porous refractory acts as the skeletal framework around which the final ceramic structure is formed.

The simplest chemical hardening method consists of impregnating the shaped porous body with a solution of chromic acid. The thoroughly impregnated material is then cured in an oven with the final temperature reaching at least 600°- 1000° F. or higher. The impregnation and curing cycle is repeated several times. With a suitable refractory base material, this simple acid treatment will produce a hard ceramic body having numerous uses.

The finally divided base material may be mixed with a binder, such as kaolin and the like, before shaping or the impregnant may serve as the binder after the first cure. This also may be accomplished by impregnation of the porous structure with a water solution of a soluble metal compound convertible to an oxide and subsequently converting same to the oxide by simply elevating the temperature to the required conversion point. The metal compound is selected so that the oxide conversion will normally take place at a temperature less than about 1500° F.

X-ray diffraction tests indicate that these chemical treatment methods form a new microcystalline structure or at least a very close bond between the added oxides, and phosphoric acid and the porous refractory skeletal structure.

As mentioned previously, the ceramic material is built around a porous refractory base material that functions as the skeletal structure. The types of such materials that are suitable for use in the present invention include various grades of alumina, titania, beryllia, magnesia, magnesium silicate and stabilized zirconia. Some materials were obtained from the manufacturer in an "underfired" or "machinable" form. In this condition, these materials were normally found to be soft enough to allow machining by conventional means, and exhibited a relatively high effective porosity (10 to 50%) to allow for subsequent chemical treatment by the process of this invention. Table 1 lists the major type designation, manufacturer, hardness, porosity and fabrication method for each of the skeletal refractory materials tested.

The addresses of the manufacturers referred to in Table 1 are as follows: American Lava Corp., Chattanooga, Tenn.; Amerisil, Inc., Hillside, N.J.; Coors, Golden, Colo.; and, Du-Co Ceramics, Saxonburg, Pa.

                                      TABLE I                                      __________________________________________________________________________     UNDERFIRED, POROUS REFRACTORY BASE MATERIALS                                         Manufacturer's                             Mohs                          Base  Type              Major Other   Sintering                                                                            Effective                                                                           Hard-                         Material                                                                             Designation                                                                             Manufacturer                                                                            Oxide Oxides  Temp. Porosity                                                                            ness                                                                               Remarks                   __________________________________________________________________________     Alumina                                                                              AHP-99   Coors    99% Al.sub.2 O.sub.3                                                                 0.5% SiO.sub.2                                                                         2670° F.                                                                      45.7%                                                                               2-3 isostatic                                               0.2% CaO               Pressed                                                 0.2% MgO                                         Alumina                                                                              AP-99-L3 Coors    99% Al.sub.2 O.sub.3                                                                         2570° F.                                                                      42.4%                                                                               2-3 Extruded                  Alumina                                                                              Al-99-l1 Coors    99% Al.sub.2 O.sub.3                                                                         1700° F.                                                                           0-1 Extruded                  Alumina                                                                              AP-99-l2 Coors    99% Al.sub.2 O.sub.3                                                                         2130° F.                                                                           1   Extruded                  Alumina                                                                              AP-99-L1 Coors    99% Al.sub.2 O.sub.3                                                                         2642° F.                                                                               Extruded                  Alumina                                                                              AP-99-L2 Coors    99% Al.sub.2 O.sub.3                                                                         2670° F.                                                                           5-6 Extruded                  Alumina                                                                              AP-99C-L1                                                                               Coors    99% Al.sub.2 O.sub.3                                                                         2642° F.                                                                           4-5 Cast                      Alumina                                                                              AP-99c-l2                                                                               Coors    99% Al.sub.2 O.sub.3                                                                         2130° F.                                                                               Cast                      Alumina                                                                              AP-99C-L3                                                                               Coors    99% Al.sub. 2 O.sub.3                                                                        2570° F.                                                                               Cast                      Alumina                                                                              AlSiMag 614                                                                             Am.Lava Corp.                                                                           96% Al.sub.2 O.sub.3                                                                 SiO     2000° F.                                                                           1-2 ordered green,                  (green)                 MgO                    fired for                                               CaO                    20 min. at                                                                     2000° F.                                                                Extruded rod              Alumina                                                                              AlSiMag 393                                                                             Am.Lava Corp.                                                                           90% Al.sub.2 O.sub.3     4-6                           Alumina                                                                              AlSiMag 548                                                                             Am.Lava Corp.                                                                           99.8% Al.sub.2 O.sub.3                                 Beryllia                                                                             BP-96-i1 Coors    96% BeO       1700° F.                                                                           1-2 Extruded                  Magnesia                                                                             187E4    Du-Co Ceramics                                                                          89% MgO                                                                              SiO.sub.2                                                                              2000° F.                                                                           1-2                           Magnesia                                                                             187E77   Du-Co Ceramics                                                                          96% MgO                                                                              SiO.sub.2                                                                              2000° F.                                                                           1-2                           Magnesium                                                                            AlSiMag 222                                                                             Am.Lava Corp.                                                                           MgO.SiO.sub.2            2-3                           Silicate                                                                       Silica                                                                               No. 3 Porosity                                                                          Amersil, Inc.                                                                           99% SiO.sub.2            2-3 Hot Pressed               Zirconia                                                                             172H20   Du-Co Ceramics                                                                          95% ZrO.sub.2                                                                        5% CaO             1-2 Made from ZCA                                                                  Type F Coarse                                                                  Grain Zirconia-                                                                (CaO stabilized)          Titania                                                                              AlSiMag 192                                                                             Am.Lava Corp.                                                                           98% TiO.sub.2                                                                        SiO.sub.2                                                                              2000° F.                                                                           2-3 Ordered Green                                           MgO                    fired 20 min.                   (Underfired)            CaO                    at 2000° F.        Alumina                                                                              AP-995-L3                                                                               Coors    99.5% Al.sub.2 O.sub.3                                                                       2570° F.                                                                               Extruded                  Alumina                                                                              AP-997-L3                                                                               Coors    99.7% Al.sub.2 O.sub.3                                                                       2570° F.                                                                               Cast                      Alumina                                                                              AP-94-l1 Coors    94% Al.sub.2 O.sub.3                                                                 3.75% SiO.sub.2                                                                              33.1%                                                                               2-3 Extruded                                                0.9% CaO                                                                       0.75% MgO                                                                              1700° F.                                                        0.5% ZrO.sub.2                                                                 0.1% Fe.sub.2 O.sub.3                            Alumina                                                                              AP-94-l2 Coors    94% Al.sub.2 O.sub.3                                                                 3.75% SiO.sub.2                                                                        2130° F.                                                                      33.0%                                                                               2-3 Extruded                                                0.9% CaO                                                                       0.75% MgO                                                                      0.5% ZrO.sub.2                                                                 0.1% Fe.sub.2 O.sub.3                            Alumina                                                                              AP-94-l2 Coors    94% Al.sub.2 O.sub.3                                                                 0.1% Fe.sub.2 O.sub.3                                                                  2130° F.                                                                      44.1%                                                                               2-3 isostatic                       (isostatic)                                    Pressed                   Alumina                                                                              AP-85-l1 Coors    85% Al.sub.2 O.sub.3                                                                 10% SiO.sub.2                                                                          1700° F.                                                                      33.4%                                                                               2-3 Extruded                                                2.75% MgO                                                                      1.25% CaO                                                                      0.75% BaO                                                                      0.25% Fe.sub.2 O.sub.3                           Alumina                                                                              AlSiMag 614                                                                             Am.Lava Corp.                                                                           96% Al.sub.2 O.sub.3                                                                         >2000° F.                                                                          6-7 Too hard for                    (underfired)                                   easy                      __________________________________________________________________________                                                          machining            

These materials are fabricated by one or more of several commercially used methods such as powder pressing, extrusion, isostatic forming or slip casting. The important factor, however, is that the formed or pressed oxide be only partially sintered since optimum sintering will result in a dense body with insufficient porosity to be usable in the chemical treatment method of this invention.

In addition to the alumina, beryllia, magnesia, titania and zirconia materials, it is anticipated that many of the other partially sintered refractory oxides would make applicable skeletal structures for the improved ceramic material. Among these would be the oxides of Barium, Calcium, Cerium, Chromium, Cobalt, Gallium, Hafnium, Lanthanum, Manganese, Nickel, Niobium, Tantalum, Thorium, Tin, Uranium, Vanadium, Yttrium and Zinc. Also, many of the complex-refractory oxides should be suitable base materials. Of the complex-refractories, only the magnesium silicate has been tested to date. Other complex-refractories that may be suitable if produced in a porous, partially sintered (underfired) form are Aluminum silicate, Aluminum titanate, Barium aluminate, Barium silicate, Barium zirconate, Beryllium aluminate, Beryllium silicate, Beryllium titanate, Beryllium zirconate, Calcium chromite, Calcium phosphate, Calcium silicate, Calcium titanate, Calcium zirconate, Cobalt aluminate, Magnesium aluminate, Magnesium chromite, Magnesium ferrite, Magnesium lanthanate, Magnesium silicate, Magnesium titanate, Magnesium zirconate, Magnesium zirconium silicate, Nickel aluminate, Potassium aluminum silicate, Strontium aluminate, Strontium phosphate, Strontium zirconate, Thorium zirconate, Zinc aluminate, Zinc zirconium silicate and Zirconium silicate.

The novel process according to the invention is particularly adapted to the treating of porous, partially vitrified refractory ceramics such as the oxides of Aluminum, Barium, Beryllium, Calcium, Cerium, Chromium, Cobalt, Gallium, Hafnium, Lanthanum, Magnesium, Manganese, Nickel, Niobium, Tantalum, Thorium, Tin, Titanium, Uranium, Vanadium, Yttrium, Zinc and Zirconium and mixtures thereof. The oxides may be substantially pure or may contain or have amounts of impurities or additives, such as an oxide of a metal other than that of the body such as Cadmium, Chromium, Cobalt, Copper, Iron, Magnesium, Manganese, Nickel, Titanium and the like and/or other salts of such metals which ultimately will convert to oxides at least during the final curing step. The process of this invention also contemplates the addition of amounts of additives such as a salt of a metal other than that of the body and convertible to an oxide such as the acetates, chlorides, nitrates and oxalates of Aluminum, Beryllium, Cadmium, Calcium, Cerium, Chromium, Cobalt, Copper, Iron, Lanthanum, Lithium, Magnesium, Molybdenum, Nickel, Strontium, Thorium, Tin, Tungsten, Zinc and Zirconium which are added to the ceramic during treatment.

The process of this invention may comprise the forming of a partially sintered untreated ceramic into a predetermined shape or the forming thereof from a powder and a binder. It will be understood that, while precast machinable stock may be used, it is possible to precast to intricate shapes and prefire to an underfired condition before the ceramic is subjected to Applicants' process. The ceramic, either stock or formed, is usually quite porous. The simplest method of chemically hardening the porous refractory structure is with a phosphoric acid treatment; however, this precludes multiple treatments as the reaction seems to go to completion in one treatment. The ceramic is impregnated with a concentrated phosphoric acid solution, usually of 85% concentration. The ceramic can be evacuated in a vacuum before immersion in the acid to hasten the impregnation or, as has been found to be particularly effective, the ceramic can be heated to from about 300° to about 600° F. and then immersed in the phosphoric acid solution. The heating causes a vacuum to be produced within the voids of the ceramic and the phosphoric acid is drawn all through the ceramic upon immersion. While a considerably longer time is required, the ceramic also can be just immersed in the acid solution for a length of time sufficient for complete impregnation. Greater uniformity is achieved by using the vacuum or heating impregnation techniques. When the part is thoroughly impregnated with acid, it is removed from the solution, excess acid on the surface is drained or wiped off.

Next, Applicants' novel process comprises the controlled heat curing of the acid impregnated ceramic. The heating cycle is usually started around 150° and ends at about at least about 900° F. The ceramic pieces are preferably placed in powdered asbestos, and the like, to minimize shock during the heating and cooling cycle. The powdered asbestos also serves to absorb liquid driven out of the ceramic as the temperature is raised. The excess liquid, if not absorbed, would be likely to craze the surface of the ceramic.

As pointed out, one of the unique features of the method of the invention is that virtually no dimensional changes occur in the machined piece during the hardening process. Therefore, expensive diamond-type machining of a hardened part is eliminated.

The property of physical hardness has been used as the primary means of determining effects of varying the underfired base materials, chemical treatment and curing methods. Table 11 below sets forth the hardness measurements for various materials which have been given a simple acid treatment.

                                      TABLE II                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR SIMPLE ACID TREATMENT                                Sample                                                                              Base  Type              Major   H.sub.3 PO.sub.4                                                                      Mohs  Rockwell                     No.  Material                                                                             Designation                                                                             Manufacturer                                                                            Oxide   Impregnation                                                                          Hardness                                                                             Hardness                                                                             Remarks                __________________________________________________________________________     21E  Alumina                                                                              AP-85-l1 Coors    85% Al.sub.2 O.sub.3                                                                   85%    8-9   A-66.5                       22E  Alumina                                                                              AP-94-l1 Coors    94% Al.sub.2 O.sub.3                                                                   85%    6-7   A-69.5                       23E  Alumina                                                                              AP-94-l2 Coors    94% Al.sub.2 O.sub.3                                                                   85%    6-7   A-71.0                       24E  Alumina                                                                              AP-94-l2 Coors    94% Al.sub.2 O.sub.3                                                                   85%    6-7   A-57.5                                  (isostatic)                                                         25E  Alumina                                                                              AP-99-L3 Coors    99% Al.sub.2 O.sub.3                                                                   85%    8-9   A-70.5                       20E  Alumina                                                                              AHP-99   Coors    99% Al.sub.2 O.sub.3                                                                   85%    6-7   A-52.5                       A7   Alumina                                                                              AlSiMag 614                                                                             Am.Lava Corp.                                                                           96% Al.sub.2 O.sub.3                                                                   85%    8-9   A-73.7                                  (underfired)                                                        30E  Alumina                                                                              AlSiMag 393                                                                             Am.Lava Corp.                                                                           90% Al.sub.2 O.sub.3                                                                   85%    8-9   fractured                    29E  Alumina                                                                              AlSiMag 548                                                                             Am.Lava Corp.                                                                           99.8% Al.sub.2 O.sub.3                                                                 85%    6-7   fractured                    26E  Beryilia                                                                             BP-96-11 Coors    96% BeO 85%    6-7   fractured                    a-1  Magnesia                                                                             187E4    Du-Co Ceramics                                                                          89% MgO 85%    4-5   fractured                    6-1  Magnesia                                                                             187E77   Du-Co Ceramics                                                                          96% MgO 85%    4-5   A-37.0                       28-E Magnesium                                                                            AlSiMag 222                                                                             Am.Lava Corp.                                                                           MgO . SiO.sub.2                                                                        85%                                            Silicate                                                                  27-E Silica                                                                               No. 3 Porosity                                                                          Amersil, Inc.                                                                           99% SiO.sub.2                                                                          85%          Fractured                    56-T Titania                                                                              AlSiMag 192                                                                             Am.Lava Corp.                                                                           TiO.sub.2                                                                              85%    4-6   Fractured                               (underfired)                                                        Z-1  Zirconia                                                                             172H20   Du-Co Ceramics                                                                          95% ZrO.sub.2                                                                          85%    8-9   A-54.0                       44T  Alumina                                                                              AlSiMag  Am.Lava Corp.                                                                           MgO . SiO.sub.2                                                                        85%    5-6   A-65.5                                  (2000° F.)                                                   C60  Alumina                                                                              AP-99C-l2                                                                               Coors    99% Al.sub.2 O.sub.3                                                                   85%                                       146  Alumina                                                                              AP-99C-L1                                                                               Coors    99% Al.sub.2 O.sub.3                                                                   85%          A-66.4                       __________________________________________________________________________

Several significant differences in the final product are achieved by the variation of portions of the treating process. While a pure or nearly pure ceramic material can be significantly hardened by a phosphoric acid treatment, prior multiple impregnations of the ceramic with a solution of a salt convertible to an oxide and cures converting same to the oxide will produce an increase in the hardness of the ceramic and the further acid treatment which may be given if desired usually produces an even harder end product.

Where the ceramic material is impregnated with a high concentration of phosphoric acid and heat treated, a good bearing material is produced and two pieces of this same material will slide against one another with a low coefficient of friction. After such pieces are worn in for a short while, a shiny surface film is produced which remains shiny even at elevated temperatures. Where the more concentrated phosphoric acid is used, the resulting product is more dense with smaller unfilled pores. Where a relatively pure ceramic oxide is treated, the addition thereto of another oxide during treatment substantially increases the hardness of the finished product. While it is not completely known what occurs in the treating process, the pores of the underfired ceramic are believed to be filled or partially filled with a reaction product of the ceramic and the additive, if any, with the acid, probably a complex metal phosphate.

Where the ceramic material is impregnated with a high concentration of phosphoric acid having dissolved therein aluminum phosphate crystals until saturated at from 250°- 400° F. and is then heat treated, a material is produced which cannot be polished to more than a dull finish, is quite porous and makes an excellent polishing and sharpening stone. This characteristic is also produced where the treatment with phosphoric acid is carried out with dilute acid solutions. It is believed that less reaction product is available to fill the pores, providing a more open and abrasive surface. Here again, the addition of another oxide during treatment substantially increases the hardness of the final product. The starting porous aluminum oxide grades have ranged from about 25 to about 60% effective porosity and, when subjected to a starved acid treatment, remain quite porous which may account for the excellent polishing and sharpening characteristics of the thus treated material.

The heat treating of the acid impregnated ceramic should be initiated at about 150° to 350° F. for a short period of time to drive out excess moisture and then the temperature is raised in steps for a series of time intervals until the final cure is accomplished at at least 500°- 600° F. and preferably at at least 850°- 900° F. The ceramic will become quite hard at 500°- 600° F., but good electrical resistivity is not achieved until the ceramic is subjected to a temperature of 850° F. or higher. Temperatures above 1000° and as high as 3000° F. have been used with good success. It is found that, once the heat treatment has been carried to above 850° F., the temperature may be increased to well above the normal vitrifying temperatures (e.g. 3000° F.) without producing any shrinkage or change in the original physical dimensions. Further, the high temperatures do not appear to affect the hardness of the material from that of the material heated to 850° F.

While the mechanism of Applicants' process is not completely understood, it is believed that aluminum phosphate may be formed and deposited in the crystal lattice structure of the aluminum oxide as well as within the voids of the porous ceramic. Further, the phosphates of the impurities and/or additives may be formed and possibly as part of the lattice structure.

As pointed out above, the ceramic materials which are chemically treated and hardened according to one embodiment of the present process display the unique characteristic of exhibiting a low coefficient of friction when sliding against themselves. The coefficient of friction between identical pieces of the material is considerably less than when used in contact with any dissimilar ceramic or metal tested to date.

Although these materials may be operated dry where they are lightly loaded for limited periods of time, the starting friction is considerably higher than when a lubricating material is present. Lubrication may be by a number of different liquids such as tap water, sea water, kerosene, trichlorethylene, lubricating oils, silicone fluids and liquid metals. Dry lubricants such as molybdenum di-sulfide, graphite, wax and the like are also suitable. It is possible also to form the lubricant in situ within the pore structure of the bearing.

The bearings can be easily and economically fabricated in a wide variety of shapes and sizes. The untreated ceramic material in the form of partially fired bars or plates is machined to size and shape using conventional high speed steel or carbide tooling. The machined pieces are then chemically treated and hardened at temperatures substantially below normal vitrification temperatures. The hardening occurs with substantially no change in dimensions, thus avoiding expensive diamond machining of the finished part.

The ceramic bearing being fairly porous may be used as the lubricant reservoir analogous to that of sintered bronze bearings. In other instances, the bearing can be operated partially or totally submerged in the lubricant or the non-rotating member can be connected to an external lubricant reservoir.

Typical bearings fabricated of ceramic according to the present invention can withstand repeated water quenching from at least 1000° F., as well as prolonged exposure to temperatures as high as 2000° F. and as low as -300° F. The compressive strength is on the order of about 125,000 psi or better, and the hardness on the Mohs scale is between 9- 10 or on the order of about A-80 -A90 on the Rockwell scale.

The ceramic materials of Table 1 was subjected to several slightly different treatments according to this invention, which are: (1) impregnation in phosphoric acid alone; (2) one or more oxide impregnations followed by a single phosphoric acid treatment; or, (3) one or more oxide impregnations alone.

A typical acid impregnation process according to the present invention comprises heating the ceramic piece to about 300°- 600° F. for about 20 minutes, the piece is then immersed in an 85% phosphoric acid solution while hot for about 40 minutes. The piece is then placed in an oven and progressively heated from 150° to about 1000° F. over a period of about 120 minutes. The piece is then cooled to room temperature.

A typical combination salt and acid impregnation process comprises heating the ceramic piece to about 250°- 450° F. for about 20 minutes. The heated piece is then immersed in the salt solution for about 40 minutes. The piece is removed from the salt solution and cured progressively from 150° to 1000° F. over a period of 120 minutes. The previous steps can be repeated if desired. The piece is then cooled to about 600° F. and immersed in an 85% phosphoric acid solution for about 40 minutes. The piece is then placed in an oven and cured over a temperature range of from 150° to 1000° F. over a period of about 120 minutes and subsequently cooled to ambient temperature in about 15 minutes.

Fully hardened samples were prepared according to the above treatments from the materials of Table 1.

As previously stated, impurities existing in the base material appear to have an effect on the resultant hardness of the treated piece. Therefore, it was decided to artificially add refractory oxides to the porous base structure prior to treating with the acid. This was accomplished by impregnating the refractory base material with a nitrate, chloride, acetate or other highly water soluble salt or an acid of the oxide desired, and then converting to the metal oxide by heating slowly to an elevated temperature. Following the oxide impregnation (which may consist of one or more salt or acid treatments) the body was then treated with phosphoric acid.

Tables III, IV, V and VI show the effect of added oxides to Coors alumina products AP-94-11, AP-85-11, AP-99-L3 and AHP-99, respectively. In these tests, three impregnations of the saturated salt were used (to assure ample "loading" with the desired oxide), followed by the 85% phosphoric acid treatment.

It is interesting to note that these tables show a wide variation hardness depending on the oxide treatment. In some cases, the hardness is considerably increased over that of the same base material treated with acid only, while in others, the increase is not so marked. The hardness that is obtained with the acid treatment only (no oxide impregnation) is listed for comparison purposes.

The Cr₂ O₃ treatment is of special interest in that, when used with the 99, 94 and 85% Al₂ O₃ base structures, the resulting ceramic is exceptionally high in hardness as compared to all other oxide impregnations tested. The Cr₂ O₃ may be added as a solution of a soluble salt or preferably as a concentrated solution of chromic acid. These four tables also show that the AHP-99 material (99% Al₂ O₃) is the poorest choice for the base structure of these four types. However, since the AP-99-L3 is also a 99% alumina composition, it must be assumed that the hardness is not a factor of the refractory purity alone, but that other factors such as difference in effective pore size is probably responsible for some or all of the noted differences.

Tables VII, VIII and IX show the same type of data using aluminum oxides secured from the American Lava Corporation as their types 614 (underfired), 393 and 548. These are 96, 90 and 99.8% Al₂ O₃ compositions, respectively.

Hardness measurements obtained with Coors 96% beryllium oxide for four different salt impregnations is shown in Table X. It is interesting that this base material produces results about equal to the best alumina material tested (Coors AP-99), indicating that refractory skeletal structures other than alumina are definite candidates for the ceramic fabrication method.

Tables XI and XII show hardness results for oxide impregnated magnesia material. While the hardness values are quite low as compared to the alumina or the beryllia, this is to be expected since magnesia, even in its fully fired stated, is not a particularly hard material Mohs 5-1/2).

Tables XIII and XIV cover "AlSiMAG" No. 222 magnesium silicate and "Amersil" 99% silica, respectively. For reasons not fully understood, refractory base materials containing a high percentage of silica do not appear to respond well to the phosphoric acid hardening method. Even in these two tests, however, the chromic oxide impregnation provided noticeably better results than the other impregnations used.

Table XV lists results obtained with a partially sintered, zirconia refractory base material. This particular underfired zirconia was fabricated from a calcia stabilized but coarse grain material. It is anticipated that a fine grained zirconia, and possibly a magnesium oxide stabilized type, would provide better results. Nevertheless, the zirconia also reacts to the chemical hardening method in the same general manner as does the alumina, magnesia and beryllia and, to a leser extent, the magnesia silicate and silica materials. Table XVA lists results obtained with aluminum oxide material and Table XVB lists results obtained wih titanium dioxide material.

With regard to the effect of pore size, it would be noted that the AHP-99 Coors material has quite large pores, compared to the other Coors material, being on the order of less than one micron compared with 2 to 3 microns for the AHP-99 materials. It would appear that the pore size would preferably be less than 2 microns and substantially uniform in size.

                                      TABLE III                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING COORS AP-94-l1 ALUMINA REFRACTORY BASE MATERIAL                          (Acid Treated Hardness Mohs 8-9, Rockwell, 70.7)                               Sample  Oxide    Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                       Mohs                                                                               Rockwell                             No.     Formed  Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                    __________________________________________________________________________     1       Al.sub.2 O.sub.3                                                                       Al(NO.sub.3).sub.2                                                                     3x    85%     9-10                                                                               A-71.5                                                                               None                           7-1     BeO     BeCl.sub.2                                                                             3x    85%     9-10                                                                               A-74.4                                                                               None                           5       CaO     Ca(NO.sub.3).sub.2                                                                     3x    85%     8-9 A-55  None                           3       CaO     Cd(NO.sub.3).sub.2                                                                     3x    85%     8-9 A-63  None                           C-1     CeO.sub.2                                                                              Ce(NO.sub.3).sub.2                                                                     3x    85%     9-10                                                                               A-71.1                                                                               None                           9       CaO     Co(NO.sub.3).sub.2                                                                     3x    85%     8-9 A-74.8                                                                               None                           L-4     Cr.sub.2 O.sub.3                                                                       CrO.sub.3                                                                              3x    85%     9-10                                                                               A-81.5                                                                               None                           7-3     CuO     Cu(NO.sub.3).sub.2                                                                     3x    85%     9-10                                                                               A-61.0                                                                               None                           7       Fe.sub.2 O.sub.3                                                                       FeCl.sub.3                                                                             3x    85%     8-9 A-72.5                                                                               None                           7-5     La.sub.2 O.sub.3                                                                       La(NO.sub.3).sub.2                                                                     3x    85%     8-9 A-53.5                                                                               Yes                            7-7     Li.sub.2 O                                                                             LiC.sub.2 H.sub.3 O.sub.2                                                              3x    85%     8-9 A-48.2                                                                               Yes                            11      MgO     Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                      3x    85%     9-10                                                                               Fractured                                                                            Yes                            D-5     MgCr.sub.2 O.sub.4                                                                     MgCrO.sub.4                                                                            3x    85%     9-10                                                                               A-73.8                                                                               None                           13      NiO     Ni(NO.sub.3).sub.2                                                                     3x    85%     9-10                                                                               A-75.6                                                                               None                           D-1     SnO     SnCl.sub.2                                                                             3x    85%     9-10                                                                               A-71.7                                                                               None                           15      SrO     Sr(NO.sub.3).sub.2                                                                     3x    85%     8-9 Fractured                                                                            Yes                            7-9     ThO.sub.2                                                                              Th(NO.sub.3).sub.4                                                                     3x    85%     9-10                                                                               A-73.5                                                                               None                           17      TiO.sub.2                                                                              Ti.sub.2 (C.sub.2 O.sub.4).sub.3                                                       3x    85%     9-10                                                                               A-73.5                                                                               None                           9-X     WO.sub.3                                                                               H.sub.4 SiW.sub.16 O.sub.40                                                            3x    85%     9-10                                                                               A-72.1                                                                               None                           Zn94    ZnO     ZnCl.sub.2                                                                             3x    85%     8-9 A-73.8                                                                               None                           D-3     ZrO.sub.2                                                                              ZrOCl.sub.2                                                                            3x    85%     9-10                                                                               A-76.1                                                                               None                           l-A     Fe.sub.2 O.sub.3.Cr.sub.2 O.sub.3                                                      (1)FeCl.sub.3+                                                                         3x    85%     9-10                                                                               A-77  None                                           (1)CrO.sub.3                                                   __________________________________________________________________________

                                      TABLE IV                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING COORS AP-85-l1 ALUMINA REFRACTORY BASE MATERIAL                          (Acid Treated Hardness Mohs 8-9, Rockwell A-65.9)                                      Oxide    Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                       Mohs Rockwell                            Sample No.                                                                             Formed  Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                             Hardness                                                                             Cracks                                                                             Remarks                   __________________________________________________________________________     8-4     Al.sub.2 O.sub.3                                                                       Al(NO.sub.3).sub.2                                                                     3x    85%     8-9  4-71  None                          8-2     CeO.sub.2                                                                              Ce(NO.sub.3).sub.2                                                                     3x    85%     9-10 A-71  Yes                           8-1     Cr.sub.2 O.sub.3                                                                       CrO.sub.3                                                                              3x    85%     9-10 A-81  None                          8-5     MgO     Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                      3x    85%     8-9  A-66  Yes Shattered During                                                               Rockwell Test             8-6     TiO.sub.2                                                                              Ti(C.sub.2 O.sub.4).sub.3                                                              3x    85%     8-9  A-68  Yes Shattered During                                                               Rockwell Test             8-3     ZrO.sub.2                                                                              ZrOCl.sub.2                                                                            3x    85%     9-10 A-72  None                          __________________________________________________________________________

                                      TABLE V                                      __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING COORS AP-99-L3 ALUMINA REFRACTORY BASE MATERIAL                          (Acid Treated Hardness Mohs 8-9, Rockwell A-70.5)                              __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                         __________________________________________________________________________     L-4    CeO.sub.2                                                                            Ce(NO.sub.3).sub.2                                                                    3x    85%    8-9  A-69.1                                                                              Yes Exploded in Oven                L-1    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    9-10 A-80.5                                                                              None                                L-3    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    9-10 A-71.0                                                                              None                                L-2    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    9-10 A-60.1                                                                              None                                __________________________________________________________________________

                                      TABLE VI                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            (Acid Treated Hardness Mohs 5-6, Rockwell A-54.8)                              __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                       Mohs                                                                               Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     2      Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                    3x    85% Sr(NO.sub.8-9                                                                          A-60.0                                                                               None                               7-2    BeO   BeCl.sub.2                                                                            3x    85%         8-9   A-57.0 None                        8-X    BeO   Be(NO.sub.3).sub.2                                                                    3x    (85%        6-7   A-67.9 None                        6      CaO   Ca(NO.sub.3).sub.2                                                                    3x    85%         6-7   Fractured None                     4      CdO   Cd(NO.sub.3).sub.2                                                                    3x    85%         4-5   A-55.0 None                        C-5    CeO.sub.2                                                                            Ce(NO.sub.3).sub.2                                                                    3x    85%         8-9   A-54.9 None                        10     CoO   Co(NO.sub.3).sub.2                                                                    3x    85%         6-7   A-62.2 None                        K-7    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%         9-10  A-69.2 None                        7-4    CuO   Cu(NO.sub.3).sub.2                                                                    3x    85%         4-5   A-47.1 None                        8      Fe.sub.2 O.sub.3                                                                     FeCl.sub.3                                                                            3x    85%         8-9   A-45.2 None                        7-6    La.sub.2 O.sub.3                                                                     La(NO.sub.3).sub.2                                                                    3x    85%         8-9   A-59.0 None                        7-8    Li.sub.2 O                                                                           LiC.sub.2 H.sub.3 O.sub.2                                                             3x    85%         5-6   A-53.1 Yes                         12     MgO   Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                     3x    85%         6-7   A-52.3 None                        K-3    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%         9-10  A-63.5 None                        14     NiO   Ni(NO.sub.3).sub.2                                                                    3x    85%         7-8   A-59.6 None                        6-X    PbO   Pb(NO.sub.3).sub.2                                                                    3x    85%         5-6   A-55.1 None                        4-X    Sb.sub.2 O.sub.3                                                                     SbCl.sub.3                                                                            3x    85%         6-7   A-59.4 None                        D-2    SnO   SnCl.sub.2                                                                            3x    85%         8-9   A-52.0 None                        1b     SrO   Sr(NO.sub.3).sub.2                                                                    3x    85%         8-9   A-26.0 None                        7-9    ThO.sub.2                                                                            Th(NO.sub.3).sub.4                                                                    3x    85%         9-10  A-58.7 None                        18     TiO.sub.2                                                                            Ti.sub.2 (C.sub.2 O.sub.4).sub.3                                                      3x    85%         8-9   A-53.3 None                        10-X   WO.sub.3                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           3x    85%         8-9   A-69.0 None                        Zn-1   ZnO   Zn(NO.sub.3).sub.2                                                                    3x    85%         8-9   A-48.1 None                        An99   ZnO   ZnCl.sub.2                                                                            3x    85%         8-9   A-72.8 None                        K-5    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%         8-9   A-61.7 None                        __________________________________________________________________________      *Fired at >2000° F.                                               

                                      TABLE VII                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSlMAG 614 (UNDERFIRED) ALUMINA REFRACTORY BASE MATERIAL*               (Acid Treated Hardness Mohs 8-9, Rockwell A-73.7, 96% Al.sub.2 O.sub.3)        __________________________________________________________________________            Oxid  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                         __________________________________________________________________________     A-11   CeO.sub.2                                                                            Ce(NO.sub.3).sub.2                                                                    3x    85%    8-9  A-69.0                                                                              None                                                                               Fractured During                                                               Rockwell Test                   A-14   Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    9-10 A-76.0                                                                              None                                A-13   CaO   Co(NO.sub.3).sub.2                                                                    3x    85%    9-10 A-73.0                                                                              None                                                                               Fractured During                                                               Rockwell Test                   A-8    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    9-10 A-65.5                                                                              None                                                                               Fractured During                                                               Rockwell Test                   A-12   NiO   Ni(NO.sub.3).sub.2                                                                    3x    85%    6-7  A-72.5                                                                              None                                                                               Fractured During                                                               Rockwell Test                   A-10   ZnO   Zn(NO.sub.3).sub.2                                                                    3x    85%    6-7  A-73.3                                                                              None                                A-9    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    9-10 A-68.0                                                                              None                                                                               Fractured During                                                               Rockwell                        __________________________________________________________________________                                                    Test                             *Fired at >2000° F.                                               

                                      TABLE VIII                                   __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSlMAG 393 ALUMINA REFRACTORY BASE MATERIAL                             (Acid Treated Hardness Mohs, 8-9, Rockwell A- , 90% Al.sub.2 O.sub.3           __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     A-4    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85% P  9-10 A-77.0                                                                               None                               A-5    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85% P  9-10 Shattered                                                                            None                               A-6    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85% P  8-9  A-68.5                                                                               None                               __________________________________________________________________________

                                      TABLE IX                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSlMAG 548 ALUMINA REFRACTORY BASE MATERIAL                             (Acid Treated Hardness Mohs 6-7, Rockwell A- , 99.8% Al.sub.2 O.sub.3)         __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     A-1    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    8-9  Fractured                                                                            None                               A-2    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    8-9  Fractured                                                                            None                               A-3    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    8-9  A-76.4                                                                               None                               __________________________________________________________________________

                                      TABLE X                                      __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING COORS BP-96-l1 BERYLLIA REFRACTORY BASE MATERIAL                         (Acid Treated Hardness Mohs 6-7, Rockwell A- )                                        Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                              Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                          __________________________________________________________________________     B-1    Al.sub.2 O.sub.3                                                                    Al(NO.sub.3).sub.2                                                                    3x    85%    8-9  A-74 None                                 B-2    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    9-10 A-81 None                                                                               Shattered in                                                                   Rockwell Testing                 B-4    MgCrO.sub.4                                                                         MgCrO.sub.4                                                                           3x    85%    9-10 A-71 None                                 B-3    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           3x    85%    9-10 A-75 None                                                                               Shattered in                                                                   Rockwell Testing                 __________________________________________________________________________

                                      TABLE XI                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING DU-CO 89% MAGNESIA REFRACTORY BASE MATERIAL                              (Acid Treated Hardness Mohs, 4-5, Rockwell - Fractured)                        __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                         __________________________________________________________________________     9-4    Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                    3x    85%    4-5  Fractured                                                                           None                                9-2    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    8-9  Fractured                                                                           None                                9-3    MgCr.sub.2 O.sub.4                                                                   MGCrO.sub.4                                                                           3x    85%    8-9  A-51.5                                                                              None                                9-6    TiO.sub.2                                                                            Ti.sub.2 (C.sub.2 O.sub.4).sub.3                                                      3x    85%    N.M. N.M.     MgO Base                                                                       Disintegrated                   9-5    ZrO.sub.2                                                                            ZrOU.sub.2                                                                            3x    85%    N.M. N.M.     MgO Base                                                                       Disintegrated                   __________________________________________________________________________

                                      TABLE XII                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING DU-CO 96% MAGNESIA REFRACTORY BASE MATERIAL                              (Acid Treated Hardness Mohs 4-5, Rockwell A-37.0)                              __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     6-4    Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                    3x    85%    3-4  Fractured                                                                            None                               6-2    Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    6-7  Fractured                                                                            None                               6-3    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    6-7  A-44.25                                                                              None                               6-6    TiO.sub.2                                                                            Ti.sub.2 (C.sub.2 O.sub.4).sub.3                                                      3x    85%    N.M. N.M.      Dissolved                      6-5    ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    N.M. N.M.      Dissolved                      __________________________________________________________________________

                                      TABLE XIII                                   __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSlMAG 222 MAGNESIUM-SILICATE REFRACTORY BASE MATERIAL                  (Acid Treated Hardness Mohs, Rockwell A- )                                     __________________________________________________________________________            Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     MS-1   Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                    3x    85%    3-4  Fractured                                                                            None                               MS-2   Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    8-9  Fractured                                                                            None                               MS-3   MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    7-8  A-41  None                                                                               Shattered During                                                               Rockwell Test                  MS-4   ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    1-2  Fractured                                                                            None                               __________________________________________________________________________

                                      TABLE XIV                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING AMERSIL No. 3 POROSITY SILICA REFRACTORY BASE MATERIAL                   (Acid Treated Hardness Mohs, Rockwell A- )                                     Sample                                                                             Oxide                                                                               Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                    No. Formed                                                                              Impregnation                                                                           Impreg.                                                                              Impregnation Hardness                                                                 Hardness                                                                            Cracks                                                                               Remarks                               __________________________________________________________________________     S-2 Al.sub.2 O.sub.3                                                                    Al(NO.sub.3).sub.2                                                                     3x    85%    4-5  Fractured                                                                            None                                  S-6 CeO.sub.2                                                                           Ce(NO.sub.3).sub.2                                                                     3x    85%    4-5  Fractured                                                                            None                                  S-1 Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                              3x    85%    6-7  A-54.0                                                                               None                                  S-3 MgO  Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                      3x    85%    4-5  Fractured                                                                            None                                  S-5 MgCrO.sub.4                                                                         MgCrO.sub.4                                                                            3x    85%    6-7  Fractured                                                                            None                                  S-4 ZrO.sub.2                                                                           ZrOCl.sub.2                                                                            3x    85%    4-5  Fractured                                                                            None                                  __________________________________________________________________________

                                      TABLE XV                                     __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING DU-CO ZIRCONIA REFRACTORY BASE MATERIAL                                  (Acid Treated Hardness Mohs 8-9, Rockwell A-54.0)                              Sample                                                                             Oxide Salt    No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                    No. Formed                                                                               Impregnation                                                                           Impreg.                                                                             Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                           __________________________________________________________________________     Z-4 Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                     3x   85%    6-7  A-46.8                                                                               None                                  Z-2 Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                              3x   85%     9-10                                                                               A-66.2                                                                               None                                  Z-7 MgO   Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                      3x   85%    6-7  Fractured                                                                            None                                  Z-3 MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            3x   85%     9-10                                                                               A-58.0                                                                               None                                  Z-8 ThO.sub.2                                                                            Th(NO.sub.3).sub.2                                                                     3x   85%    6-7  A-55.3                                                                               None                                  Z-6 ZnO   Zn(NO.sub.3).sub.2                                                                     3x   85%    6-7  A-44.7                                                                               None                                  Z-5 ZrO.sub.2                                                                            ZrOCl.sub.2                                                                            3x   85%    8-9  A-60.3                                                                               None                                  __________________________________________________________________________

                                      TABLE XVA                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSlMAG 614 96% Al.sub.2 O.sub.3 REFRACTORY BASE MATERIAL PARTIALLY      SINTERED AT 2000° F.                                                    (Acid Treated Hardness Mohs, Rockwell A- )                                     Sample                                                                             Oxide Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                    No. Formed                                                                               Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                            __________________________________________________________________________     40T Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                             3x    85%    9-10 A-82.5                                                                              None                                   41T ZrO.sub.2                                                                            ZrOCl.sub.2                                                                           3x    85%    9-10 A-74.5                                                                              None                                   42T MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                           3x    85%    9-10 A-67.5                                                                              None                                   43T NiO   Ni(NO.sub.3).sub.2                                                                    3x    85%    9-10 A-69.5                                                                              None                                   44T       None         85%    5-6  A-65.5                                                                              None                                   __________________________________________________________________________

                                      TABLE XVB                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR VARIOUS OXIDE IMPREGNATIONS                          USING ALSIMAG 192 TITANIA 98% TIO.sub.2 REFRACTORY BASE MATERIAL BASE          MATERIAL PARTIALLY SINTERED AT 2000° F.                                 (Acid Treated Hardness Mohs, Rockwell A- )                                     __________________________________________________________________________            Oxide  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                       Mohs Rockwell                               Sample No.                                                                            Formed                                                                               Impregnation                                                                           Impreg.                                                                              Impregnation                                                                           Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                      __________________________________________________________________________     50-T   Cr.sub.2 O.sub.3                                                                     CrO.sub.3                                                                              3x    85%     8-9  A-77.5                                                                               None                             51-T   ZrO.sub.2                                                                            ZrOCl.sub.2                                                                            3x    85%     8-9  A-66.0                                                                               None                             52-T   BeO   Be(NO.sub.3).sub.2                                                                     3x    85%     6-7  A-69.0                                                                               None                             53-T   MgO   Mg(C.sub.2 H.sub.3 O.sub.2).sub.2                                                      3x    85%     6-7  Fractured                              54-T   Al.sub.2 O.sub.3                                                                     Al(NO.sub.3).sub.2                                                                     3x    85%     5-6  Fractured                              55-T   MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            3x    85%      9-10                                                                               A-65.0                                 56-T         None          85%     4-5  Fractured                              __________________________________________________________________________

Tables XVI-XXIX show the hardness of selectd base materials which have been treated with multiple salt impregnations to illustrate the effect on hardness of varying the amount of added oxide prior to the final acid treatment. In the preceding Tables, all samples were impregnated with the salt solution three times. The following impregnations were varied from as few as one time to a maximum of eleven times, and included a final phosphoric acid treatment. The base materials and oxide impregnations tested in this manner were selected from the materials of Table 1.

Table XVI shows the effect of 1 through 11 chromic oxide impregnations using Coors AP-99-L3 alumina base material, while Table XVIA shows the effect of 1 through 8 chromic oxide impregnations with AP-94-11 alumina base material and Table XVII shows 1 through 5 impregnations with AP-94-12 material. These tables show the definite increase in hardness with increase in number of oxide impregnations. The rate of increase in hardness is also seen to decrease as the number of impregnations increase. This would appear to follow since there is probably less and less interstitial space for the oxides with each successive treatment. Specific gravity and porosity tests bear this out.

                                      TABLE XVI                                    __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF CHROMIC OXIDE IMPREGNATIONS                  USING COORS AP-99-L3 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample NO.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     80-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             1x    85%    9-10 A-73.2                                                                               None                                81-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    9;14 10                                                                             A-80.4                                                                               None                                82-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             5x    85%    9-10 A-83.9                                                                               None                                83-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             7x    85%    9-10 A-87.6                                    84-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             9x    85%    9-10 A-88.3                                                                               None                                85-L   Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                              11x  85%    9-10 A-88.9                                                                               None                                __________________________________________________________________________

                                      TABLE XVIA                                   __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF CHROMIC OXIDE IMPREGNATIONS                  USING COORS AP-94-11 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregation                                                                           Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     L-8    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             1x    85%    9-10 A-76.4                                                                               None                                L-9    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             2x    85%    9-10 A-80.7                                                                               None                                3X     Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    9-10 A-81.8                                                                               None                                --     Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             4x    85%    9-10                                           5X     Cr.sub.2 o.sub.3                                                                    CrO.sub.3                                                                             5x    85%    9-10 A-85.0                                                                               None                                6X     Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             6x    85%    9-10 A-85.0                                                                               None                                7X     Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             7x    85%    9-10 A-86.0                                                                               None                                8X     Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             8x    85%    9-10 A-87.0                                                                               None                                __________________________________________________________________________

                                      TABLE XVII                                   __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF CHROMIC OXIDE IMPREGNATIONS                  USING COORS AP-94-12 ALUMINA REFRACTORY BASE Material                          __________________________________________________________________________            Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     L-7    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             1x    85%    9-10 A-75.8                                    K-8    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             2x    85%    9-10 A-79.6                                    L-4    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    9-10 A-81.5                                    L-5    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             4x    85%    9-10 A-83.9                                    2-S    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             5x    85%    9-10 A-86.0                                                       6x    85%                                                   3-S    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             7x    85%    9-10 A-83.0                                    4-S    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             9x    85%    9-10 A-84.0                                    5-S    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                              11x  85%    9-10 A-85.0                                    __________________________________________________________________________

These tables show that there is very little difference in the hardness results obtained between the AP-94-11 and the AP-94-12 materials. The difference between these two base materials is in their sintering temperatures, respectively 1700° and 2130° F.

Table XVIII shows the results obtained with chromic oxide impregnations on Coors AHP-99 alumina material. While the hardness increases with the number of chromic oxide impregnations, the hardness numbers obtained for a given number of treatments is much less than those obtained with chromic oxide treatment of Coors AP-99-L3 material of Table XVI. Since these alumina materials are both 99% aluminum oxide, and both have the same effective porosity of about 40%, the differences measured must be a result of the different pore size. The AHP-99 material has larger pores on the order of 2-3 microns average, while the AP-99-L3 average pore size is 0.6-0.7 microns.

                                      TABLE XVIII                                  __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF CHROMIC OXIDE IMPREGNATIONS                  USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     O-6    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             1x    85%                                                   L-1    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             2x    85%    8-9  A-57.4                                                                               None                                O-7    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    9-10 A-69.2                                                                               None                                L-2    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             4x    85%    8-9  A-68.7                                                                               None                                O-8    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             5x    85%    9-10 A-73.0                                                                               None                                --                 6x                                                          3-U    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             7x    85%    9-10 A-80.0                                                                               None                                --                 8x                                                          4-U    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             9x    85%    9-10 A-76.0                                                                               None                                --                  10x                                                        5-U    Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                              11x  85%    9-10 A-79.0                                    __________________________________________________________________________

Tables XIX and XX show the effect on hardness for 1 through 5 impregnations of zirconium oxide into base materials of AP-94-12 and AHP-99 alumina, respectively. Again, the AP-94 material produces greater hardness than the AHP-99 for comparable impregnations. Also, while the AP-94 material impregnated with zirconium oxide does not produce as hard an end product as does the chromic oxide impregnation, the reverse is true when considering the AHP-99 material. Again, the explanation is undoubtedly connected with differences in pore size and/or impurities in the base material.

Tables XXI and XXII show similar tests to those just described, except that the impregnant was a concentrated solution of magnesium chromate instead of a concentrated solution of zirconyl chloride.

                                      TABLE XIX                                    __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF ZIRCONIUM OXIDE IMPREGNATIONS               USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     Y-1    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           1x    85%    8-9  A-71.9                                                                               None                                K-6    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           2x    85%    8-9  A-74.6                                                                               None                                5-T    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           3x    85     9-10 A-70.0                                                                               None                                --                 4x                                                          6-T    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           5x    85     9-10 A-73.0                                                                               None                                --                 6x                                                          7-T    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           7x    85%    9-10 A-73.0                                                                               None                                --                 8x                                                          8-T    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                           9x    85%    9-10 A-80.5                                                                               None                                --                  10x                                                        9-T    ZrO.sub.2                                                                           ZrOCl.sub.2                                                                            11x  85%    9-10 A-78.0                                                                               None                                __________________________________________________________________________

                                      TABLE XX                                     __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF ZIRCONIUM OXIDE IMPREGNATIONS               USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Oxide                                                                              Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     Y-2    ZrO.sub.2                                                                          ZrCl.sub.2                                                                             1x    85%    5-6  A-55.5                                                                               None                                Y-4    ZrO.sub.2                                                                          ZrCl.sub.2                                                                             2x    85%    9-10 A-63.5                                                                               None                                K-5    ZrO.sub.2                                                                          ZrCl.sub.2                                                                             3x    85%    9-10 A-61.7                                                                               None                                Y-5    ZrO.sub.2                                                                          ZrCl.sub.2                                                                             4x    85%    9-10 A-71.6                                                                               None                                __________________________________________________________________________

                                      TABLE XXI                                    __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF MAGNESIUM CHROMITE IMPREGNATIONS             USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Oxide Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                Sample No.                                                                            Formed                                                                               Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                       __________________________________________________________________________     M-1    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            1x    85%    9-10 A-66  None                              M-2    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            3x    85%    9-10 A-72  None                              M-3    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            5x    85%    9-10 A-70  None                              __________________________________________________________________________

                                      TABLE XXII                                   __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF MAGNESIUM CHROMITE IPREGNATIONS              USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Oxide Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                Sample No.                                                                            Formed                                                                               Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                       __________________________________________________________________________     M-4    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            1x    85%    6-7  A-50  None                              M-5    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            3x    85%    9-10 A-53  None                              M-6    MgCr.sub.2 O.sub.4                                                                   MgCrO.sub.4                                                                            5x    85%    9-10 A-61  None                              __________________________________________________________________________

Tables XXIII and XXIV are for ceric oxide impregnated AP-94-11 and AHP-99 base materials, respectively. Table XXV covers the AP-94 material with concentrated cobalt nitrate solution used as the impregnant. Table XXVI is for the same base material but using a concentrated silico-tungstic acid solution for the impregnant. Table XXVII is again for the AP-94 base material but using a 1:1 mixture of concentrated ferric chloride solution and chromic acid as the impregnating solution to form what appears to be a ferric chromite when cured.

                                      TABLE XXIII                                  __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF CERIC OXIDE IMPREGNATIONS                   USING COORS AP-94-11 ALUMINA REFRACTORY MATERIAL                               __________________________________________________________________________            Oxide                                                                              Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            Formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     C-O    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     2x    85%    8-9  A-68.3                                                                               None                                C-1    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     3x    85%    9-10 A-71.1                                                                               None                                C-2    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     4x    85%    9-10 A-72.9                                                                               None                                C-3    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     5x    85%    9-10 A-74.6                                                                               None                                C-4    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     6x    85%    9-10 A-75.7                                                                               None                                __________________________________________________________________________

                                      TABLE XXIV                                   __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF CERIC OXIDE IMPREGNATIONS                   USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Oxide                                                                              Salt    No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                  Sample No.                                                                            formed                                                                             Impregnation                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                         __________________________________________________________________________     C-5    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     3x    85%    8-9  A-54.9                                                                               None                                C-6    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     4x    85%    8-9  A-59.4                                                                               None                                C-7    CeO.sub.2                                                                          Ce8NO.sub.3).sub.2                                                                     5x    85%    8-9  A-60.1                                                                               None                                C-8    CeO.sub.2                                                                          Ce(NO.sub.3).sub.2                                                                     6x    85%    8-9  A-60.1                                                                               None                                __________________________________________________________________________

                                      TABLE XXV                                    __________________________________________________________________________     HARDNESS VARIATION WITH NUMBER OF COBALT OXIDE IMPREGNATIONS                   USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Oxide                                                                              Salt   No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                       No. Formed                                                                             Impregnation                                                                          Impreg.                                                                             Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                               __________________________________________________________________________     3-B CoO Co(NO.sub.3).sub.2                                                                    1x   85%    9-10 A-71.5                                                                              None                                      --  --  --     2x   --     --   --   --                                        4-B CoO Co(NO.sub.3).sub.2                                                                    3x   85%    9-10 A-73.0                                                                              None                                      --  --  --     4x   --     --   --   --                                        1-T CoO Co(NO.sub.3).sub.2                                                                    5x   85%    9-10 A-74.5                                                                              None                                      __________________________________________________________________________

                                      TABLE XXVI                                   __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF TUNGSTIC OXIDE IMPREGNATIONS                USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Oxide                                                                              Salt   No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                       No. Formed                                                                             Impregnation                                                                          Impreg.                                                                             Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                               __________________________________________________________________________     1-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           1x   85%    8-9  A-69.0                                                                              None                                      2-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           3x   85%    7-8  A-71.0                                                                              None                                      5-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           4x   85%    9-10 A-76.0                                                                              None                                      3-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           5x   85%    9-10 A-76.0                                                                              None                                      7-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           6x   85%    --   --   --                                        8-W WO.sub.3                                                                           H.sub.4 SiW.sub.16 O.sub.40                                                           7x   85%    9-10 A-75.0                                                                              None                                      __________________________________________________________________________

                                      TABLE XXVII                                  __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF FERRIC CHROMITE IMPREGNATIONS               USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Oxide  Salt   No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                    No. Formed Impregnation                                                                          Impreg.                                                                             Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                            __________________________________________________________________________     4-A Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        1x   85%    6-7  A-72 None                                              (1)CrO.sub.3                                                        --  --     --     2x   --     --   --   --                                     1-A Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        3x   85%    9-10 A-75 None                                              (1)CrO.sub.3                                                        2-A Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        4x   85%    9-10 A-77 None                                              (1)Cro.sub.3                                                        3-A Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        5x   85%    9-10 A-82 None                                              (1)CrO.sub.3                                                        __________________________________________________________________________

A zirconia base material has been used for tests shown as Tables XXVII and XXIX. These are for a coarse grain, calcia stabilized, 95% zirconia underfired refractory material with chromic oxide and zirconium oxide impregnations as shown.

                                      TABLE XVIII                                  __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF CHROMIC OXIDE IMPREGNATIONS                 USING DU-CO, CALCIA STABILIZED, 95% ZIRCONIA BASE MATERIAL                     Sample                                                                             Oxide                                                                               Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                     No. Formed                                                                              Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                             __________________________________________________________________________     20-Z                                                                               Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             3x    85%    6-7  A-69.5                                                                              None                                    21-Z                                                                               Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             5x    85%    6-7  A-78.5                                                                              None                                    22-Z                                                                               Cr.sub.2 O.sub.3                                                                    CrO.sub.3                                                                             7x    85%    6-7  A-77 None                                    23-Z                                                                               None None   None  85%    8-9  A-54 None                                    __________________________________________________________________________

                                      TABLE XXIX                                   __________________________________________________________________________     HARDNESS VARIATIONS WITH NUMBER OF ZIRCONIUM OXIDE IMPREGNATIONS               USING DU-CO, CALCIA STABILIZED, 95% ZIRCONIA BASE MATERIAL                     Sample                                                                             Oxide                                                                              Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                      No. Formed                                                                             Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                             __________________________________________________________________________     23-Z                                                                               ZrO.sub.2                                                                          ZrOCl.sub.2                                                                           3x    85%    6-7  A-65  None                                    24-Z                                                                               ZrO.sub.2                                                                          ZrOCl.sub.2                                                                           5x    85%    6-7  A-66  None                                    25-Z                                                                               ZrO.sub.2                                                                          ZrOCl.sub.2                                                                           7x    85%    6-7  Fractured                                                                            --                                      26-Z                                                                               None                                                                               None   None  85%    8-9  A-54  None                                    __________________________________________________________________________

A series of multiple phosphoric acid treatments of the Coors AP-94, AP-85 and AHP-99 alumina base materials has been investigated. The results are shown in Tables XXX, XXXI and XXXII. For the most part, these tests show that one phosphoric acid treatment is equal to, or better than, more than one treatment.

Table XXXIII shows the same type of multiple acid treatment test, except that the Coors (AP-94) material has been first impregnated with three chromic acid applications prior to the final phosphoric acid treatments. Again, one phosphoric acid treatment appears to be optimum.

                                      TABLE XXX                                    __________________________________________________________________________     MULTIPLE ACID IMPREGNATIONS                                                    USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                    No. Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                            __________________________________________________________________________     P-1 None   --    85%    1x    8-9  A-68.7                                                                              None                                   P-2 None   --    85%    2x    8-9  A-67.8                                                                              None                                   P-3 None   --    85%    3x    6-7  A-67.7                                                                              None                                   P-4 None   --    421/2% 1x    4-5  A-64.8                                                                              Yes Fractured                          P-5 None   --    421/2% 2x    6-7  A-58.7                                                                              Yes Fractured                          P-6 None   --    421/2% 3x    6-7  A-58.5                                                                              None                                                                               Fractured                          __________________________________________________________________________

                                      TABLE XXX                                    __________________________________________________________________________     MULTIPLE ACID IMPREGNATIONS                                                    USING COORS AP-85-11 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                    No. Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                           __________________________________________________________________________     P-7 None   --    85%    1x    8-9  A-61.2                                                                               Yes                                   P-8 None   --    85%    2x     9-10                                                                               A-58.5                                                                               Yes Fractured                         P-9 None   --    85%    3x    6-7  A-63.0                                                                               None                                  P-10                                                                               None   --    421/2% 1x    4-5  A-53.7                                                                               None                                  P-11                                                                               None   --    421/2% 2x    6-7  Fractured                                                                            Yes Fractured                         P-12                                                                               None   --    421/2% 3x    6-7  A-67.6                                                                               Yes                                   __________________________________________________________________________

                                      TABLE XXXII                                  __________________________________________________________________________     MULTIPLE ACID IMPREGNATIONS                                                    USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            Sample                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                    No. Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                           __________________________________________________________________________     P-13                                                                               None   --    85% P  1x    5-6  A-44.2                                                                               None                                  P-14                                                                               None   --    85% P  2x    6-7  A-45.0                                                                               Yes Fractured                         P-15                                                                               None   --    85% P  3x    6-7  A-68.0                                                                               None                                  1-R None   --    85% P  3x    N.M. N.M.  Yes                                   2-R None   --    85% P  4x    N.M. N.M.  Yes                                   3-R None   --    85% P  5x    N.M. N.M.  Yes                                   4-R None   --    85% P  6x    N.M. N.M.  Yes                                   P-16                                                                               None   --    42;178 % P                                                                            1x    4-5  A-31.7                                                                               None                                  P-17                                                                               None   --    421/2% P                                                                              2x    6-7  Fractured                                                                            Yes Fractured                         P-18                                                                               None   --    421/2% P                                                                              3x    6-7  A-41.3                                                                               None                                  __________________________________________________________________________

                                      TABLE XXXIII                                 __________________________________________________________________________     MULTIPLE ACID IMPREGNATIONS TEST                                               USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          WITH CHROMIC OXIDE PRE-TREATMENT                                               Sample                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                    No. Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                            __________________________________________________________________________     1-C CrO.sub.3                                                                             3x    85%    1x    9-10 A-82.5                                                                              None                                   2-C CrO.sub.3                                                                             3x    85%    2x    9-10 A-81.0                                                                              None                                   3-C CrO.sub.3                                                                             3x    421/2% 1x    9-10 A-78.1                                                                              None                                   4-C CrO.sub.3                                                                             3x    421/2% 2x    9-10 A-81.0                                                                              None                                   5-C CrO.sub.3                                                                             3x    421/2% 3x    9-10 A-81.0                                                                              None                                   __________________________________________________________________________

Tables XXIV and XXXV show the effect of varying the phosphoric acid concentration. In the previous tests, the acid strength has been either 85% or 42 1/2% H₃ PO₄. In these two tests, 95, 90 and 75 phosphoric acid are also compared with the standard 85% strength treatment. Table XXXIV covers the AP-94 base material and Table XXXV the AHP-99 material.

                                      TABLE XXXIV                                  __________________________________________________________________________     EFFECT ON HARDNESS OF VARYING ACID CONCENTRATION                               USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          Sample                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                    No. Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                            __________________________________________________________________________     21-E                                                                               None   --    95%    1x    5-6  A-63.0                                                                              None                                   23-E                                                                               None   --    85%    1x    6-7  A-65.0                                                                              None                                   25-E                                                                               None   --    75%    1x    6-7  A-59.5                                                                              None                                   P-4 None   --    421/2% 1x    4-5  A-64.8                                                                              None                                   27.E                                                                               CrO.sub.3                                                                             3x    95%    1x     9-10                                                                               A-83.0                                                                              None                                   29-E                                                                               CrO.sub.3                                                                             3x    85%    1x     9-10                                                                               A-80.5                                                                              None                                   31-E                                                                               CrO.sub.3                                                                             3x    75%    1x    8-9  A-82.0                                                                              None                                   3-C CrO.sub.3                                                                             3x    421/2% 1x     9-10                                                                               A-81.0                                                                              None                                   L-4 CrO.sub.3                                                                             3x    85%    1x     9-10                                                                               A-81.5                                                                              None                                   __________________________________________________________________________

                                      TABLE XXXV                                   __________________________________________________________________________     EFFECT ON HARDNESS OF VARYING ACID CONCENTRATION                               USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      No. Acid                                                                             Mohs Rockwell                                 Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Impreg.                                                                              Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     20-E   None   --    95%    1x    4-5  A-46.0                                                                               None                               22-E   None   --    85%    1x    6-7  A-56.0                                                                               None                               24-E   None   --    75%    1x    6-7  A-46.0                                                                               None                               P-16   None   --    421/2% 1x    4-5  A-31.7                                                                               None                               26-E   CrO.sub.3                                                                             3x    95%    1x    5-6  A-70.0                                                                               None                               28-E   CrO.sub.3                                                                             3x    85%    1x    4-5  A-74.0                                                                               None                               30-E   CrO.sub.3                                                                             3x    75%    1x    4-5  A-71.5                                                                               None                               __________________________________________________________________________

When conducting impregnation tests with various metal oxides, it was found that a marked increase in the Mohs hardness scratch number occured in several instances, even before the final phosphoric acid treatment. It has now been found that this marked increase in hardness occurs with at least two single oxides; chromic oxide and cobalt oxide, and at least two complex oxides; magnesium chromite and iron chromite, when used as impregnants for one or more of the porous alumina base materials. A fifth impregnant, silico-tungsten acid, has also been found to react into a similar manner.

Tables XXXVI and XXXVII, respectively, show the hardness measurements obtained with AP-94-11 and AHP-99 alumina base materials with multiple chromic oxide impregnations only (no final acid treatment). Table XXXVIII covers the same two base refractory materials with multiple magnesium chromite impregnations only, and Table XXXIX shows the same Coors AP-94-11 alumina material, but using multiple ferric chromite impregnations. Table XXXIXA shows the Coors AP-94-12 material with multiple oxide impregnations.

                                      TABLE XXXVI                                  __________________________________________________________________________     HARDNESS MEASUREMENTS FOR MULTIPLE Cr.sub.2 O.sub.3 IMPREGNATIONS              WITHOUT FINAL ACID TREATMENT                                                   USING COORS AP-96-12 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Base  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 SampleNo.                                                                             Material                                                                             Impregnaton                                                                           Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     0-1    AP-94-12                                                                             CrO.sub.3                                                                             1x    None   4-5  A-43.0                                                                               None                               0-2    AP-94-12                                                                             CrO.sub.3                                                                             2x    None   4-5  A-62.2                                                                               None                               O-3    AP-94-12                                                                             CrO.sub.3                                                                             3x    None   8-9  A-74.0                                                                               None                               O-4    AP-94-12                                                                             CrO.sub.3                                                                             4x    None   9-10 A-82.0                                                                               None                               O-5    AP-94-12                                                                             CrO.sub.3                                                                             5x    None   9-10 A-84.0                                                                               None                               3-S    AP-94-12                                                                             CrO.sub.3                                                                             7x    None   9-10 A-84.0                                                                               None                               4-S    AP-94-12                                                                             CrO.sub.3                                                                             9x    None   9-10 A-84.5                                                                               None                               5-S    AP-94-12                                                                             CrO.sub.3                                                                             11x   None   9-10 A-86.0                                                                               None                               __________________________________________________________________________

                                      TABLE XXXVII                                 __________________________________________________________________________     HARDNESS MEASUREMENTS FOR MULTIPLE Cr.sub.2 O.sub.3 IMPREGNATIONS              WITHOUT FINAL ACID TREATMENT                                                   USING COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                            __________________________________________________________________________            Base  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Material                                                                             Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                             Cracks                                                                             Remarks                        __________________________________________________________________________     o-6    AHP-99                                                                               CrO.sub.3                                                                             1x    None   3-4  A-15.2                                                                               None                               O-7    AHP-99                                                                               CrO.sub.3                                                                             3x    None   6-7  A-54.7                                                                               None                               O-8    AHP-99                                                                               CrO.sub.3                                                                             5x    None   8-9  A-69.0                                                                               None                               3-U    AHP-99                                                                               CrO.sub.3                                                                             7x    None   9-10 A-75.0                                                                               None                               4-U    AHP-99                                                                               CrO.sub.3                                                                             9x    None   9-10 A-78.0                                                                               None                               5-U    AHP-99                                                                               CrO.sub.3                                                                             11x   None   9-10 A-79.5                                                                               None                               __________________________________________________________________________

                                      TABLE XXXVIII                                __________________________________________________________________________     HARDNESS MEASUREMENTS FOR MULTIPLE MAGNESIUM CHROMITE IMPREGNATIONS            WITHOUT FINAL ACID TREATMENT                                                   __________________________________________________________________________            Base  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Material                                                                             Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness Cracks                                                                     Remarks                             __________________________________________________________________________     M-1    AP-94-12                                                                             MgCrO.sub.4                                                                           1x    None   4-5  A-24.7                                                                              None                                M-2    AP-94-12                                                                             MgCrO.sub.4                                                                           3x    None   8-9  A-49.2                                                                              None                                M-3    AP-94-12                                                                             MgCrO.sub.4                                                                           5x    None   9-10 A-63.1                                                                              None                                M-4    AHP-99                                                                               MgCrO.sub.4                                                                           1x    None   3-4  A-8.7                                                                               None                                M-5    AHP-99                                                                               MgCrO.sub.4                                                                           3x    None   6-7  A-28.8                                                                              None                                M-6    AHP-99                                                                               MgCrO.sub.4                                                                           5x    None   8-9  A-39.0                                                                              None                                __________________________________________________________________________

                                      TABLE XXXIX                                  __________________________________________________________________________     HARDNESS MEASUREMENTS FOR MULTIPLE IMPREGNATIONS                               WITHOUT FINAL ACID TREATMENT                                                   USING CORRS AP-96-l1 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Oxide  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                Sample No.                                                                            Formed Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                        __________________________________________________________________________     4-A    Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        1x    85%    4-5                                                        (1)CrO.sub.3                                                     5-A    Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        3x    85%    4-10                                                       (1)CrO.sub.3                                                     6-A    Fe.sub.2 O.sub.3 Cr.sub.2 O.sub.3                                                     (1)FeCl.sub.3+                                                                        5x    85%    9-10                                                       (1)CrO.sub.3                                                     __________________________________________________________________________

                                      TABLE XXXIXA                                 __________________________________________________________________________     HARDNESS MEASUREMENTS FOR MULTIPLE TUNGSTIC OXIDE IMPREGNATIONS                WITHOUT FINAL ACID TREATMENT                                                   USING COORS AP-94-12 ALUMINA REFRACTORY BASE MATERIAL                          __________________________________________________________________________            Base  Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Mohs Rockwell                                 Sample No.                                                                            Material                                                                             Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Hardness                                                                            Hardness                                                                            Cracks                                                                             Remarks                         __________________________________________________________________________     1-W    AP-94-12                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           1x    None   4-5  A-35.0                                                                              None                                2-W    AP-94-12                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           3x    None   7-8  Fractured                                                                           None                                5-W    AP-94-l2                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           4x    None   8-9  A-75.0                                                                              None                                3-W    AP-94-l2                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           5x    None   8-9  A-69.5                                                                              None                                7-W    AP-94-l2                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           6x    None   9-10 A-65.0                                                                              None                                8-W    AP-94-l2                                                                             H.sub.4 SiW.sub.16 O.sub.40                                                           7x    None   9-10 A-74.0                                                                              None                                __________________________________________________________________________

Compressive strength tests have been conducted for several treated refractory ceramics using the ASTM tentative standard, Method C528-637.

The data presented in Tables XL, XLI, XLII and XLIII covers Coors AP-94-11, AP-94-12, AP-85-11 and AP-99-L3 alumina refractory base materials, respectively, with a single phosphoric acid treatment only.

                                      TABLE XL                                     __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AP-94-l1 ALUMINA REFRACTORY BASE MATERIAL                                USING SINGLE ACID TREATMENT ONLY                                               __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     1      None   --    85%    622  .303                                                                               22.7K                                                                               74,800 psi                            2      None   --    85%    .623 .304                                                                               23.2K                                                                               76,500 psi                            3      None   --    85%    .625 .306                                                                               24.2K                                                                               82,200 psi                            4      None   --    85%    .622 .303                                                                               16.2K                                                                               53,500 psi                            5      None   --    85%    .622 .303                                                                               22.4K                                                                               74,000 psi                            Avg.                                     72,500 psi                            __________________________________________________________________________

                                      TABLE XLI                                    __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AP-94-l2 ALUMINA REFRACTORY BASE MATERIAL                                USING SINGLE ACID TREATMENT ONLY                                               __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     1      None   --    85%    .622 .303                                                                               26.3K                                                                               87,000 psi                            2      None   --    85%    .623 .304                                                                               21.8K                                                                               71,800 psi                            3      None   --    85%    .625 .306                                                                               25.7K                                                                               83,800 psi                            4      None   --    85%    .621 .302                                                                               29.0K                                                                               94,000 psi                            5      None   --    85%    .624 .305                                                                               22.0K                                                                               72,300 psi                            Avg.                                     81,800 psi                            __________________________________________________________________________

                                      TABLE XLII                                   __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AP-85-l1 ALUMINA REFRACTORY BASE MATERIAL                                USING SINGLE ACID TREATMENT ONLY                                               __________________________________________________________________________            Salt    No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     1      None   --    85%    .625 .306                                                                               17.8K                                                                               58,300 psi                            2      None   --    85%    .625 .306                                                                               20.0K                                                                               65,500 psi                            3      None   --    85%    .625 .306                                                                               12.6K                                                                               41,000 psi                            4      None   --    85%    .624 .305                                                                               12.7K                                                                               41,600 psi                            5      None   --    85%    .623 .304                                                                               18.95K                                                                              62,300 psi                            Avg.                                     53,740 psi                            __________________________________________________________________________

                                      TABLE XLIII                                  __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AP-99-L3 ALUMINA REFRACTORY BASE MATERIAL                                USING SINGLE ACID TREATMENT ONLY                                               __________________________________________________________________________            Salt    No. Salt                                                                            H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     1      None   --    85%    .625 .306                                                                               23.6K                                                                               77,400 psi                            2      None   --    85%    .624 .305                                                                               21.7K                                                                               71,000 psi                            3      None   --    85%    .625 .305                                                                               21.6K                                                                               70,900 psi                            Avg.                                     73,100 psi                            __________________________________________________________________________

Tables XLIV, XLV and XLVI cover Coors AHP-99 base material with three impregnations of chromic oxide (chromic acid), magnesium chromite and zirconium oxide, respectively. A final, single phosphoric acid treatment was also used in each case.

Table XLVII shows compressive strength measurements for Coors AP-94-11 material with three chromic oxide (chromic acid) impregnations, plus final phosphoric acid treatment.

                                      TABLE XLIV                                   __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                                  USING CHROMIC OXIDE IMPREGNATIONS PLUS SINGLE ACID TREATMENT                   __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnaton                                                                           Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     N-7    CrO.sub.3                                                                             3x    85%    .249 .049                                                                               3900 78,100 psi                            N-8    CrO.sub.3                                                                             3x    85%    .250 .049                                                                               4475 89,600 psi                            C-1    CrO.sub.3                                                                             3x    85%    .249 .049                                                                               4150 85,215 psi                            C-2    CrO.sub.3                                                                             3x    85%    .250 .049                                                                               3750 76,375 psi                            C-3    CrO.sub.3                                                                             3x    85%    .250 .049                                                                               3050 62,370 psi                            C-4    CrO.sub.3                                                                             3x    85%    .249 .049                                                                               4375 89,835 psi                            Avg.                                     80,249 psi                            __________________________________________________________________________

                                      TABLE XLV                                    __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                                  USING MAGNESIUM CHROMITE IMPREGNATIONS PLUS SINGLE ACID                        __________________________________________________________________________     TREATMENT                                                                             Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     N-2    MgCrO.sub.4                                                                           3x    85%    .250 .0492                                                                              4175 83,600 psi                            N-3    MgCrO.sub.4                                                                           3x    85%    .250 .0492                                                                              3575 71,500 psi                            Avg.                                     77,550 psi                            __________________________________________________________________________

                                      TABLE XLVI                                   __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AHP-99 ALUMINA REFRACTORY BASE MATERIAL                                  USING ZIRCONIUM OXIDE IMPREGNATIONS PLUS SINGLE ACID TREATMENT                 __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     N-5    ZrOCl.sub.2                                                                           3x    85%    .249 .049                                                                               2375 47,500 psi                            N-6    ZrOCl.sub.2                                                                           3x    85%    .250 .049                                                                               1800 36,050 psi                            Avg.                                     41,775 psi                            __________________________________________________________________________

                                      TABLE XLVII                                  __________________________________________________________________________     COMPRESSIVE STRENGTH MEASUREMENTS FOR                                          COORS AP-94-l1 ALUMINA REFRACTORY BASE MATERIAL                                USING CHROMIC OXIDE IMPREGNATIONS                                              __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                      Sample                                                                              Area     Compressive                           Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            (in.sup.2)                                                                         lbf  Strength                                                                              Remarks                        __________________________________________________________________________     C-5    CrO.sub.3                                                                             3x    85%    .251 .041                                                                               6100                                                                               123,730 psi                            C-6    CrO.sub.3                                                                             3x    85%    .251 .049                                                                               6600                                                                               133,333 psi                            Avg.                                    128,532 psi                            __________________________________________________________________________

Modulus of Rupture tests have been conducted using the procedure of ASTM Method C369-56 with the exception that the sample size has been reduced. The ASTM Method calls for samples 3/4inch in diameter x 6 inches in length. The present ceramic samples have been prepared with dimensions on the order of 1/4 inch in diameter × 2 inch in length. The sample size change was made because of the lack of curing ovens long enough to conveniently handle the 6 inch piece.

Table XLVIII lists the modulus of rupture test results for the Coors AP-94-12 base material with multiple (zero, three and six) chromic oxide (chromic acid) impregnations, and Table XLVIIIA lists the modulus of rupture tests for the Coors AP-99-L3 base material with multiple (three and six) chromic oxide (chromic acid) impregnations and with chromic acid plus other oxide impregnations.

                                      TABLE XLVIII                                 __________________________________________________________________________     MODULUS OF RUPTURE TEST DATA FOR                                               COORS AP-94-l2 (ISOSTATIC) ALUMINA REFRACTORY BASE MATERIAL                    __________________________________________________________________________            Salt   No. Salt                                                                             H.sub.3 PO.sub.4                                                                           Support Modulus                                Sample No.                                                                            Impregnation                                                                          Impreg.                                                                              Impregnation                                                                          Diameter                                                                            Distance                                                                            lbf                                                                               of Rupture                                                                             Remarks                        __________________________________________________________________________     1-R    None   --    85%    0.295     68 10,200                                 2-R    None   --    85%    0.295     68 10,200                                 3-R    CrO.sub.3                                                                             3x    85%    0.293     92 14,000                                 4-R    CrO.sub.3                                                                             3x    85%    0.292     65 10,000                                 5-R           CrO.sub.3                                                                            6x     85%  0.254   76      11,480                         __________________________________________________________________________

                                      TABLE XLVIIIA                                __________________________________________________________________________     MODULUS OF RUPTURE TEST DATA FOR                                               COORS AP-99-L3 ALUMINA REFRACTORY BASE MATERIAL                                       Salt   No. Salt                                                                            H.sub.3 PO.sub.4                                                                           Support   Modulus                               Sample No.                                                                            Impregnation                                                                          Impreg.                                                                             Impregnation                                                                          Diameter                                                                            Distance                                                                             lbf of Rupture                                                                           Remarks                         __________________________________________________________________________      7     None   --   85%    .260 1.50 in.                                                                              82 17,900                                 9     CrO.sub.3                                                                             3x   85%    .258 1.50 in.                                                                             125 27,900                                10     CrO.sub.3                                                                             3x   85%    .258 1.50 in.                                                                             110 24,500                                11     CrO.sub.3                                                                             6x   85%    .258 1.50 in.                                                                              84 18,700                                12     CrO.sub.3                                                                             6x   85%    .260 1.50 in.                                                                             164 35,700                                13     CrO.sub.3 +                                                                           4x                                                                      ZrOCl.sub.2                                                                           2x   85%    .258 1.50 in.                                                                             148 33,000                                14     CrO.sub.3 +                                                                           4x                                                                      ZrOCl.sub.2                                                                           2x   85%    .257 1.50 in.                                                                             128 28,900                                15     CrO.sub.3 +                                                                           4x                                                                      Ni(NO.sub.3).sub.2                                                                    2x   85%    .260 1.50 in.                                                                             110 24,000                                16     CrO.sub.3 +                                                                           4x                                                                      Ni(NO.sub.3).sub.2                                                                    2x   85%    .258 1.50 in.                                                                             124 27,600                                17     CrO.sub.3 +                                                                           4x                                                                      H.sub.4 SiW.sub.16 O.sub.40                                                           2x   85%    .258 1.50 in.                                                                             105 23,400                                19     CrO.sub.3 +                                                                           4x                                                                      Be(NO.sub.3).sub.2                                                                    2x   85%    .258 1.50 in.                                                                              80 17,800                                __________________________________________________________________________

Specific gravity determinations for a number of porous refractory base materials, measured in the received condition, are presebted in Table XLVIX.

Specific gravity measurements for some of these same materialas, but processed with a single phosphoric acid treatment, are listed in Table L.

Table LI shows specific gravity measurements for Coors AP-99-L3 alumina base mterial with 1 through 11 chromic oxide (chromic acid) impregnations. This table shows that a maximum density was obtained with nine chromic oxide impregnations.

                                      TABLE XLVIX                                  __________________________________________________________________________     SPECIFIC GRAVITY DETERMINATIONS FOR VARIOUS REFRACTORY BASE MATERIALS          WITHOUT OXIDE OR ACID TREATMENTS (AS RECEIVED CONDITION)                              Base   Salt No. Salt                                                                             H.sub.3 PO.sub.4                                                                    Volume                                                                              Wt. in Air                                                                            Length                                                                              Diameter                                                                            Specific                   Sample No.                                                                            Material                                                                              Impreg.                                                                             Impreg.                                                                              Impreg.                                                                             (cc) (Dry)(gms)                                                                            (cm) (cm) Gravity                    __________________________________________________________________________     A99    AHP-99 None --    None 1.684                                                                               3.53   1.471                                                                               1.210                                                                               2.10                       B93    AP-99-L3                                                                              None --    None 1.674                                                                               3.95   1.474                                                                               1.205                                                                               2.36                       C51    AP-85-l1                                                                              None --    None 1.645                                                                               3.94   1.456                                                                               1.200                                                                               2.39                       D41    Ap-94-l1                                                                              None --    None 1.678                                                                               4.15   1.478                                                                               1.205                                                                               2.47                       E42    AP-94-l2                                                                              None --    None 1.696                                                                               4.21   1.494                                                                               1.205                                                                               2.48                        E421  AP-94-l2                                                                              None --    None 1.678                                                                               3.60   1.478                                                                               1.204                                                                               2.14                              (Isostatic)                                                             __________________________________________________________________________

                                      TABLE L                                      __________________________________________________________________________     SPECIFIC GRAVITY DETERMINATIONS FOR VARIOUS REFRACTORY BASE MATERIALS          WITH SINGLE ACID TREATMENT ONLY                                                       Base   Salt No. Salt                                                                             H.sub.3 PO.sub.4                                                                    Volume                                                                              Wt. in Air                                                                            Length                                                                              Diameter                                                                            Specific                   Sample No.                                                                            Material                                                                              Impreg.                                                                             Impreg.                                                                              Impreg.                                                                             (cc) (Dry)(gms)                                                                            (cm) (cm) Gravity                    __________________________________________________________________________     A99    AHP-99 None --    85%  1.71 4.31   1.494                                                                               1.210                                                                               2.52                       A93    AP-99-L3                                                                              None --    85%  1.678                                                                               4.63   1.474                                                                               1.206                                                                               2.75                       A51    AP-85-l1                                                                              None --    85%  1.632                                                                               4.49   1.466                                                                               1.194                                                                               2.75                       A41    AP-94-l1                                                                              None --    85%  1.671                                                                               4.74   1.475                                                                               1.204                                                                               2.83                       A42    AP-94-l2                                                                              None --    85%  1.692                                                                               4.83   1.494                                                                               1.204                                                                               2.85                       A421   AP-94-l2                                                                              None --    85%  1.675                                                                               4.32   1.478                                                                               1.203                                                                               2.58                              (Isostatic)                                                             __________________________________________________________________________

                                      TABLE LI                                     __________________________________________________________________________     SPECIFIC GRAVITY DETERMINATIONS FOR COORS AP-99-L3 ALUMINA REFRACTORY          BASE MATERIAL                                                                  WITH MULTIPLE CHROMIC OXIDE IMPREGNATIONS                                      __________________________________________________________________________            Base  Salt No. Salt                                                                             H.sub.3 PO.sub.4                                                                    Volume                                                                              Wt. in Air                                                                            Length                                                                             Diameter                                                                            Specific                     Sample No.                                                                            Material                                                                             Impreg.                                                                             Impreg.                                                                              Impreg.                                                                             (cc) (Dry)(gms)                                                                            (cm)                                                                               (cm) Gravity                      __________________________________________________________________________     1      AP-99-L3                                                                             CrO.sub.3                                                                           1x    None 1.337                                                                               3.70   .704                                                                               1.555                                                                               2.77                         2      AP-99-L3                                                                             CrO.sub.3                                                                           3x    85%  1.349                                                                               4.23   .710                                                                               1.555                                                                               3.09                         3      AP-99-L3                                                                             CrO.sub.3                                                                           5x    85%  1.368                                                                               4.74   .714                                                                               1.563                                                                               3.46                         4      AP-99-L3                                                                             CrO.sub.3                                                                           7x    85%  1.337                                                                               4.95   .704                                                                               1.555                                                                               3.70                         5      AP-99-L3                                                                             CrO.sub.3                                                                           9x    85%  1.391                                                                               5.30   .726                                                                               1.563                                                                               3.81                         6      AP-99-L3                                                                             CrO.sub.3                                                                           11x   85%  1.334                                                                               5.07   .696                                                                               1.564                                                                               3.80                         __________________________________________________________________________

To determine the effective porosity of these ceramic materials, water absorption tests were made. The porosity percentage was calculated by determining the weight of the absorbed water in grams divided by the volume of the sample in cubic centimeters. This type of measurement gives the effective porosity only since there may be completely entrapped pores or pores too small to admit water.

Table LII shows the effective porosity measurements made for a number of the porous, underfired refractory base materials prior to any treatment of any kind. These materials show porosity variations ranging from about 30 to about 50% for the types tested.

Table LIII shows the same type data as above except that the porous base materials have been given a single phosphoric acid treatment only.

                                      TABLE LII                                    __________________________________________________________________________     EFFECTIVE POROSITY DETERMINATIONS FOR VARIOUS REFRACTORY BASE MATERIALS        WITHOUT OXIDE OR ACID TREATMENT (AS RECEIVED CONDITION)                        __________________________________________________________________________            Base   Salt    H.sub.3 PO.sub.4                                                                    Wt. Soaked                                                                             Wt. in Air                                                                            H.sub.2 O (gms)                                                                       Volume                                                                             Effective                 Sample No.                                                                            Material                                                                              Impreg.                                                                             No.                                                                               Impreg.                                                                             in H.sub.2 O (gms)                                                                     (Dry)(gms)                                                                            Absorbed                                                                              (cc)                                                                               Porosity                  __________________________________________________________________________     A99    AHP-99 None -- None 4.30    3.53   .77    1.684                                                                              45.7%                     B93    AP-99-L3                                                                              None -- None 4.66    3.95   .71    1.673                                                                              42.4%                     C51    AP-85-11                                                                              None -- None 4.49    3.94   .55    1.645                                                                              33.4%                     D41    AP-94-11                                                                              None -- None 4.71    4.15   .56    1.678                                                                              33.5%                     E42    AP-94-12                                                                              None -- None 4.77    4.21   .56    1.696                                                                              33.0%                     F421   AP-94-12                                                                              None -- None 4.34    3.60   .74    1.678                                                                              44.1%                            (Isostatic)                                                             __________________________________________________________________________

                                      TABLE LIII                                   __________________________________________________________________________     EFFECTIVE POROSITY DETERMINATIONS FOR VARIOUS REFRACTORY BASE MATERIALS        WITH SINGLE ACID TREATMENT ONLY                                                __________________________________________________________________________            Base   Salt    H.sub.3 PO.sub.4                                                                    Wt. Soaked                                                                             Wt. in Air                                                                            H.sub.2 O (gms)                                                                       Volume                                                                              Effective                Sample No.                                                                            Material                                                                              Impreg.                                                                             No.                                                                               Impreg.                                                                             in H.sub.2 O (gms)                                                                     (Dry)(gms)                                                                            Absorbed                                                                              (cc) Porosity                 __________________________________________________________________________     99     AHP-99 None -- 85%  4.64    4.31   .33    1.710                                                                               19.3%                    93     AP-99-L3                                                                              None -- 85%  4.87    4.62   .25    1.678                                                                               14.9%                    51     AP-85-l1                                                                              None -- 85%  4.70    4.49   .21    1.632                                                                               12.9%                    41     AP-94-l1                                                                              None -- 85%  4.95    4.74   .26    1.671                                                                               12.6%                    42     AP-94-l2                                                                              None -- 85%  5.03    4.83   .20    1.692                                                                               11.8%                    42l    AP-94-l2                                                                              None -- 85%  4.66    4.32   .28    1.675                                                                               16.7%                           (Isostatic)                                                             __________________________________________________________________________

Table LIV presents data obtained by using 1 through 11 chromic oxide (chromic acid) impregnations followed by the single phosphoric acid treatment. In this test, Coors AP-99-L3 base material was used. As in the case of the specific gravity measurements, minimum porosity occurs at about 9-11 impregnations.

                                      TABLE LIV                                    __________________________________________________________________________     EFFECTIVE POROSITY DETERMINATIONS FOR COORS AP-99-L3 ALUMINA REFRACTORY        BASE MATERIAL                                                                  WITH MULTIPLE CHROMIC OXIDE IMPREGNATIONS                                      __________________________________________________________________________            Base  Salt     H.sub.3 PO.sub.4                                                                    Wt. Soaked                                                                             Wt. in Air                                                                            H.sub.2 O (gms)                                                                       Volume                                                                              Effective                Sample No.                                                                            Material                                                                             Impreg.                                                                             No. Impreg.                                                                             in H.sub.2 O (gms)                                                                     (Dry)(gms)                                                                            Absorbed                                                                              (cc) Porosity                 __________________________________________________________________________     1      AP-99-L3                                                                             CrO.sub.3                                                                           1x  None 3.95    3.70   .25    1.337                                                                               18.2%                    2      AP-99-L3                                                                             CrO.sub.3                                                                           3x  None 4.52    4.23   .29    1.349                                                                               21.5%                    3      AP-99-L3                                                                             CrO.sub.3                                                                           5x  None 4.95    4.78   .21    1.368                                                                               15.3%                    4      AP-99-L3                                                                             CrO.sub.3                                                                           7x  None 5.10    4.95   .15    1.337                                                                               11.2%                    5      AP-99-L3                                                                             CrO.sub.3                                                                           9x  None 5.32    5.30   .02    1.391                                                                               1.43%                    6      AP-99-L3                                                                             CrO.sub.3                                                                           11x None 5.08    5.07   .01    1.334                                                                               0.74%                    __________________________________________________________________________

Samples of AHP-99 alumina, with single phosphoric acid treatment only, have been fabricated in the form of thin discs measuring 1/4 × 3. They were then heated to 1000° F. and water quenched, reheated to 1000° F. and again quenched for a total of ten cycles. No visible signs of cracking or checking were observed.

The same type test has been performed with similarly prepared samples using liquid nitrogen as the quenching media. While liquid nitrogen does not produce as severe a thermal shock as does a good conductor such as water, it does, however, provide a much wider temperature excursion. The samples were left immersed until gas formation ceased and it is estimated that a temperature of about -300° F. had been reached. Again, no cracks or fatiguing were noticed after ten cycles.

These two thermal shock cyclings (1000° F. and liquid nitrogen) were repeated using AP-94-11 alumina base material. These samples were prepared, however, with three, five and seven chromic oxide (chromic acid) impregnations prior to the final phosphoric acid treatment. In this case, the samples measured approximately 1/8inch in thickness by 3/4 inch in diameter. Again, no cracking or structural failure occurred after ten cycles in either environment. Mohs hardness measurements also remained unchanged from the pre-test condition.

All the ceramic type materials produced according to the present invention have been repeatedly cycled between ambient temperature and 2000° F. This includes Coors AHP-99, AP-94, AP-85 to AP-99, basic alumina material with Cr₂ O₃, MgCr₂ O₄, ZrO₂ and many other multiple oxide impregnations, as well as several similar combinations with the beryllia, zirconia and magnesia base materials. It has also been found that ceramic parts produced by this invention can be cooled very rapidly after heating to high temperatures. For example, a thin cross section piece can be removed from a 2000° F. oven and placed directly on an aluminum cooling plate without cracking.

Thin plates of Coors AHP-99 base material with single phosphoric acid treatment have been exposed continuously to 1000° F. for 61/2 days. No fracturing or cracking could be detected and the pre- and postexposure hardness measurements were identical.

Additional samples were prepared using Coors AHP-99 and AP-94-12 base materials with three magnesium chromite and five chromic oxide (chromic acid) impregnations, respectively. In each type sample, a final phosphoric acid treatment was used following the oxide impregnation. These samples were exposed to 1000° F. for 60 hours followed by 8 hours at 2000° F. Again, no structural or hardness changes could be observed.

Sample ceramic parts (approximately 1/8 thick × 3/4 inch in diameter) using AHP-99 base material with a single phosphoric acid treatment have also been immersed in liquid nitrogen for 16 hours and then removed and returned to room temperature. No change in hardness was observed and no evidence of cracking or fractures could be found.

Tests have been conducted with machined rods and discs of ceramic materials produced by the instant process to determine what changes occur in dimension between the pre-hardened and the treated and hardened condition. The accuracy of these measurements is considered to be ±.0001

Table LV covers AP-99-L3, AP-85-11 and AP-94-12 porous alumina machined pieces before and after a single phosphoric acid treatment. These parts were cured at a final temperature of 1800° F.

                                      TABLE LV                                     __________________________________________________________________________     DIMENSIONAL CHANGE TESTS FOR HARDENED VS. PRE-HARDENED CERAMIC MATERIAL        MAX. TEMP. 1800° F., 1 HR.                                              __________________________________________________________________________            Base  Salt    H.sub.3 PO.sub.4                                                                    Pre-Hardened                                                                           Dimensions                                                                           Hardened                                                                            Dimensions                                                                           Percent                                                                              Change                Sample No.                                                                            Material                                                                             Impreg.                                                                             No.                                                                               Impreg.                                                                             Length  Diameter                                                                             Length                                                                              Diameter                                                                             Length                                                                               Diameter              __________________________________________________________________________     E      AP-99-L3                                                                             None -- 85%  4.957   0.3653                                                                               4.955                                                                               0.3652                                                                               -0.040%                                                                              -0.027%               C      AP-94-12                                                                             None -- 85%  0.7001  0.3781                                                                               0.7001                                                                              0.3779                                                                                0%   -0.058%               B      AP-94-11                                                                             None -- 85%  0.9467  0.8536                                                                               0.9457                                                                              0.8532                                                                               -0.105%                                                                              -0.045%               D-9    AHP-99                                                                               CrO.sub.3                                                                           3x 85%  0.8521  1.0940                                                                               0.8521                                                                              1.0940                                                                                0%    0%                   D-4    AP-94-11                                                                             CrO.sub.3                                                                           3x 85%  0.1954  0.7560                                                                               0.1954                                                                              0.7555                                                                                0%   -0.066%               D-7    AP-94-11                                                                             ZrOU.sub.2                                                                          3x 85%  0.8971  0.3040                                                                               0.8963                                                                              0.3037                                                                               -0.089%                                                                              -0.096                       AP-94-12                                                                             CrO.sub.3                                                                           3x 85%                                                       __________________________________________________________________________      Note:                                                                          Pre-hardened dimensions were read from the machined base material prior t      any chemical treatment. Hardened dimensions were read after chemically         treating part and curing to 1800° F. for 1 hour.                  

Table LVI shows dimensional change readings for AP-99-L3 and AP-94-12 materials treated with multiple oxide impregnations followed by a final single acid treatment and cured at a final temperature of 1800° F. Percentage values, as above, reflect change in dimension between those of the original machined basic porous structure and those obtained after the part has been chemically treated and hardened. As can be seen, the dimensional changes are exceedingly small.

                                      TABLE LVI                                    __________________________________________________________________________     DIMENSIONAL CHANGE TESTS FOR HARDENED VS. PRE-HARDENED CERAMIC MATERIAL        MAX. TEMP. 2300° F., 2 HRS.                                             __________________________________________________________________________            Base   Salt    H.sub.3 PO.sub.4                                                                    Pre-Hardened                                                                           Dimensions                                                                           Hardened                                                                            Dimensions                                                                           Precent                                                                              Change               Sample No.                                                                            Material                                                                              Impreg.                                                                             No.                                                                               Impreg.                                                                             Length  Diameter                                                                             Length                                                                              Diameter                                                                             Length                                                                               Diameter             __________________________________________________________________________     D70    AP-99-L3                                                                              CrO.sub.3                                                                           3x 85%  1.9765  0.2570                                                                               1.9765                                                                              0.2570                                                                               0%    0%                   D71    AP-99-L3                                                                              CrO.sub.3                                                                           6x 85%  1.9760  0.2595                                                                               1.9765                                                                              0.2595                                                                               +0.025%                                                                              0%                   D-72   AP-99-L3                                                                              ZrOCl.sub.2                                                                         5x 85%  1.9760  0.2579                                                                               1.9765                                                                              0.2579                                                                               +0.025%                                                                              0%                   D73    AP-94-12                                                                              CrO.sub.3                                                                           3x 85%  1.9824  0.2590                                                                               1.9815                                                                              0.2590                                                                               -0.045%                                                                              0%                          (Isostatic)                                                             D74    AP-94-12                                                                              CrO.sub.3                                                                           6x 85%  1.9916  0.2592                                                                               1.9910                                                                              0.2592                                                                               -0.030%                                                                              0%                          (Isostatic)                                                             D75    AP-94-12                                                                              CrO.sub.3                                                                           4x 85%  1.9805  0.2681                                                                               1.9800                                                                              0.2681                                                                               -0.025%                                                                              0%                          (Isostatic)                                                                           ZrOCl.sub.2                                                                         2x                                                          __________________________________________________________________________      Note:                                                                          Pre-hardened dimensions were read from the machined base material prior t      any chemical treatment. Hardened dimensions were read after chemically         treating part and curing to 1800° F.                              

Various of the treated ceramic materials have been subjected to a number of standard solvents and reagents. Little or no effect has been observed. Immersion tests for treated ceramics utilizing the single phosphoric acid treatment only and for ceramic types incorporating various oxide impregnations, both with and without the final phosphoric acid treatment, having been made in acetone, trichlorethylene, hydrochloric acid, sodium hydroxide, sea water, ferric chloride and concentrated sulfuric acid with no observable effect on either the hardness or physical appearance.

X-ray diffraction analysis of the structure of several types of treated ceramic materials has been conducted using a Norelco diffractometer manufactured by North American Phillips, Inc. The results are briefly summarized in the following Table LVII. Accuracy of measurements can be considered to be at least 0.1%.

                                      TABLE LVII                                   __________________________________________________________________________     X-RAY DIFFRACTION CRYSTAL STRUCTURE IDENTIFICATION                                    Base Salt    H.sub.3 PO.sub.4                                           Sample No.                                                                            Material                                                                            Impreg.                                                                             No.                                                                               Impreg.                                                                             X-Ray Diffraction Identification                      __________________________________________________________________________     A      AHP-99                                                                              None -- None Al.sub.2 O.sub.3                                      B      AP-94                                                                               None -- None Al.sub.2 O.sub.3                                      B      AP-94                                                                               None -- None Al.sub.2 O.sub.3                                      C      AHP-99                                                                              None -- 85%  Al.sub.2 O.sub.3 +X                                   D      AP-94                                                                               None -- 85%  Al.sub.2 O.sub.3 +X                                   E      AHP-99                                                                              ZrOCl.sub.2                                                                         3x 85%  Al.sub.2 O.sub.3 +Zr.sub.2 P.sub.2 O.sub.7                                     +X+(ZrO.sub.2 trace)                                  F      AHP-99                                                                              MgCrO.sub.4                                                                         3x 85%  Al.sub.2 O.sub.3 +MgCrO.sub.4 +X+(Cr.sub.2                                     O.sub.3 trace)                                        G      AHP-99                                                                              MgCrO.sub.4                                                                         3x None Al.sub.2 O.sub.3 +MgCrO.sub.4                         0-7    AHP-99                                                                              CrO.sub.3                                                                           3x None Al.sub.2 O.sub.3 +Cr.sub.2 O.sub.3                    K-7    AHP-99                                                                              CrO.sub.3                                                                           3x 85%  Al.sub.2 O.sub.3 +Cr.sub.2 O.sub.3 +X                 0-3    AP-94                                                                               CrO.sub.3                                                                           3x None Al.sub.2 O.sub.3 +CrO.sub.3                           L-7    AP-94                                                                               CrO.sub.3                                                                           1x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        K-8    AP-94                                                                               CrO.sub.3                                                                           2x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        L-4    AP-94                                                                               CrO.sub.3                                                                           3x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        L-5    AP-94                                                                               CrO.sub.3                                                                           4x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        L-6    AP-94                                                                               CrO.sub.3                                                                           5x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        8X     AP-94                                                                               CrO.sub.3                                                                           8x 85%  Al.sub.2 O.sub.3 +CrO.sub.3 +X                        __________________________________________________________________________

It will be noted that in each X-ray diffraction study of an aluminum oxide ceramic sample which has been subjected to a phosphoric acid treatment according to the present invention, there appears a line which has been labled X as there is no existing information in the X-ray indexes of a line having been previously observed at this position. As shown in the Table LVII, the untreated AHP-99 and AP-94 alumina samples A and B do not display the X line, while samples C and D and the others treated with phosphoric acid according to this invention do provide the X line. The X line occurs at a d spacing of approximately 4.12 A. The nearest compound is that of AlPO₄, aluminum ortho phosphate having the most intense line with a d spacing of 4.077 angstroms, relative intensity 100 in the 1-1-1 planes; next most intense line d spacing 2.506 angstroms, relative intensity 20, 2-2-0 planes; next most intense line d spacing 2.867 angstroms, relative intensity 10, 1-1- 2 planes; next line d spacing 3.162 angstroms, relative intensity 10, 0-2-1 and 2-0-1 planes. There are a number of lesser intense lines. It is important to note, however, that none of the lines with d spacing of 4.077 A; 2.506 A; 2.867 A; 3.162 A or any of the remaining lines appear on the X-ray diffraction chart of the aluminum oxide ceramic materials which have been treated with phosphoric acid according to the present invention. It is assumed that the phosphoric acid treatment results in or produces a new compound or at best a new crystalline structure which accounds for the improved and unique properties of the treated aluminum oxide materials. The source of information for the X-ray data on aluminum ortho phosphate is the National Bureau of Standards Circular No. 539, Oct. 4, 1960.

Samples of ceramic material formed using Coors AP-99-L3 alumina base refractory material with single phosphoric acid treatment only (no oxide impregnation) have been subjected to various nuclear radiation environment.

One such test consisted of exposing small coil forms made of the material to a transient nuclear environment in a fast burst reactor. In this case, the small pieces (˜ 1/4 diameter × 1/8 inch length) were exposed to a neutron flux rate of 2.8 × 10¹⁷ n/cm² -sec with associated gammas of 6 × 10⁷ rads/sec. The total dose per burst was ˜ 2.2 × 10¹² n/cm² (fast neutron), 1.8 × 10¹³ n/cm² (thermal neutrons) and 5 × 10³ rads. No noticeable effect in the ceramic material could be detected.

Another test was conducted in which small samples of the same type ceramic were irradiated for a period of time long enough to accumulate a total exposure of approximately 10¹⁹ (≧ MeV). Even with this very high exposure, no physical change in the ceramic part could be detected.

Parts to be fabricated using the method and materials of this invention are first machined to the correct dimensions from the relatively soft, partially sintered, porous refractory base material.

In this original, untreated condition, the material will normally have a Mohs hardness somewhere between 1 to 3 and preferably between 2-3 (such as the Coors AHP-99 and AP-94 alumina).

This hardness range allows machining using ordinary high speed steel or carbide tool bits, drills, cutters, saws, etc. While carbide tooling is recommended for quantity production to reduce tool wear, high speed tool steel will also hold up quite well providing cutting speeds are low to prevent heat buildup at point of contact.

Very fine and intricate parts can be machined and processed from this material. Thin walled parts, such as coil bobbins, can be made with sections as thin as 0.010 inch with little difficulty. Also, providing slow speeds are used to prevent heating, holes as small as 1/64 inch have been drilled to an inch or so in depth.

Recommended lathe turning speeds for small parts (1.4- 2 inches dia.) are about 250 rpm and drilling should ordinarily be done at speeds of less than 150 rpm. Band saw cutting should be at 10ft/min or less. Finished parts may also be easily sanded by hand using conventional "wet or dri" type silicon carbide paper with grit size ranging from 100 to 600, depending on the final finish desired.

Since the part will become extremely hard following the chemical treatment and hardening process, the dimensions and surface finish desired in the final cured state should be completed during the initial machining operation. It is possible to provide final polishing operations after not more than three oxide impregnations using silicon carbide paper. After this point, it will usually be necessary to resort to diamond machining since the hardness of most of the hardened ceramic material will usually exceed that of silicon carbide.

In order to fabricate a hardened ceramic part according to this invention, the piece, machined from the soft, base refractory material, must next be chemically treated and cured.

The chemical treatment method will normally consist of one of the fllowing: (1) Impregnation in phosphoric acid only; (2) One or more oxide impregnations followed by a single phosphoric acid treatment; (3) One or more oxide impregnations without final acid treatment. The choice of impregnation method will, of course, depend on the final physical, chemical and electrical properties desired, as well as the economic factors involved.

Following each chemical impregnation, the part is elevated in temperature to remove the water (including water of crystallization) and to convert the salt, or acid solution to an inert crystalline structure. A typical impregnation and curing cycle is shown in Table LVIII.

                                      TABLE LVIII                                  __________________________________________________________________________     CURING AND HARDENING CYCLE FOR                                                 UNDERFIRED REFRACTORY CERAMICS                                                 __________________________________________________________________________     Step   Description    Temperature                                                                               Time                                          __________________________________________________________________________     1  Heat basic ceramic material                                                                       350° F.                                                                            20 min.                                       2  Immerse part in salt solution                                                                     Ambient    40 min.                                       3  Cure part          150° F. - 1000° F.                                                          120 min.                                      4  Cool piece to 600° F.                                                                      600° F.                                                                            20 min.                                       5  Immerse in phosphoric acid solution                                                               Ambient    40 min.                                       6  Harden part        150° F. - 1000° F.                                                          120 min.                                      7  Cool piece to ambient                                                                             Ambient    15 min.                                       __________________________________________________________________________

The above applies to any part having its thinnest section not exceeding 3/8 inch. For thicker pieces, longer curing cycles (steps 3 and 6) and immersion times (steps 2 and 5) are required. Steps 2 and 3 may be repeated for desired number of salt impregnations, depending on mechanical strength properties desired. Where only acid treatment is desired, steps 2, 3 and 4 can be omitted. In like manner, if only an oxide treatment is to be used, steps 5 and 6 can be omitted.

Many of the refractory ceramic materials of this invention have been found to exhibit excellent characteristics for bearing and seal applications. Even the simple phosphoric acid treated refractory base materials exhibit a noticeably low coefficient of friction characteristic, suggesting possible bearing use.

Static and sliding coefficient of friction data has been measured for several refractory ceramic materials produced in accordance with the present invention.

Table LIX lists static coefficients determined by sliding various oxide impregnated specimens on a chromic oxide impregnated slide. The slide and most of the oxide impregnated sliders were also given a final phosphoric acid treatment. As can be seen from the data presented in Table LIX, the lowest coefficient is provided by the like materials. The one sample, given four chromic oxide impregnations followed by one zirconium oxide impregnation (plus final phosphoric acid treatment), produced the highest friction coefficient when sliding against the chromic oxide treated slide.

Table LIX shows that the lowest friction coefficients are generally obtained by sliding identical ceramic materials against each other rather than unlike materials.

                                      TABLE LIX                                    __________________________________________________________________________     COEFFICIENT OF STATIC FRICTION MEASUREMENTS, RUN DRY                           __________________________________________________________________________            SLIDER                    SLIDE                                          Base Salt       H.sub.3 PO.sub.4                                                                    Base Salt    H.sub.3 PO.sub.4                                                                    Load    Friction                       Material                                                                             Impreg.                                                                              No.  Impreg.                                                                             Material                                                                            Impreg.                                                                             No.                                                                               Impreg.                                                                             (lbs)                                                                              1bf Coefficient                    __________________________________________________________________________     AP-94-l2                                                                             CrO.sub.3                                                                            5x   None AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              8.2 .131                           AP-94-l2                                                                             CrO.sub.3                                                                            5x   85%  AP-94-12                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              11.4                                                                               .183                           AP-94-l2                                                                             ZrOCo.sub.2                                                                          5x   85%  AP-94-12                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              9.6 .154                           AP-94-l2                                                                             MgCrO.sub.4                                                                          5x   None AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              9.8 .157                           AP-94-l2                                                                             Ni(NO.sub.3).sub.2                                                                   5x   85%  AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              8.8 .141                           AP-94-l2                                                                             Co(NO.sub.3).sub.2                                                                   5x   85%  AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              8.3 .133                           AP-94-l2                                                                             SnCl.sub.2                                                                           5x   85%  AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              9.3 .149                           AP-94-l2                                                                             None  --   85%  AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              10.7                                                                               .172                           AP-94-l2                                                                             CrO.sub.3 +                                                                          4x   85%  AP-94-l2                                                                            CrO.sub.3                                                                           4x 85%  62.38                                                                              11.3                                                                               .181                                 ZrOCl.sub.2                                                                          1x                                                                 __________________________________________________________________________      Note: Contact area of slider ≈ .6 in.sup.2                       

Table LXI lists coefficients of friction for some common materials and is included for comparison purposes.

                  TABLE LXI                                                        ______________________________________                                         COEFFICIENT OF STATIC AND                                                      SLIDING FRICTION COMPRESSION DATA                                              ______________________________________                                                           Static Friction                                                                           Sliding Friction                                  Materials         Dry        Dry                                               ______________________________________                                         Glass on Glass     0.94      0.4                                               Hard Steel on Hard Steel                                                                          0.78      0.42                                              Hard Steel on Graphite                                                                            0.21      --                                                Hard Steel on Babbit                                                                              0.70      0.33                                              Brass on Mild Steel                                                                               0.51      0.44                                              Cast Iron on Cast Iron                                                                            1.10      0.15                                              Teflon on Teflon   0.04      0.04                                              Teflon on Steel    0.04      0.04                                              Tungsten Carbide on Tungsten                                                   Carbide            0.2       --                                                Tungsten Carbide on Steel                                                                         0.5       --                                                ______________________________________                                          Note: Above data from American Institute of Physics Handbook, 1957.      

Wear rate test data was obtained with a variety of treated refractory ceramics using a single rub-shoe type test. Both conventional and non-conventional lubricants have been used in these wear rate tests, including No. 10 SAE motor oil, glycerine, No. 200 polyethylene glycol, G. E. F-50 Versilube silicone lubricant, alcohol, gasoline, paraffin, apiezon high vacuum grease, tap water and sea water.

The rub-shoe test arrangement consists of a single shoe riding against the periphery of a rotating wheel. The wheel in these tests has normally been operated at either 60 or 300 rpm. The contact pressure between the shoe and wheel is variable and may be adjusted simply by changing weights on the end of a lever arm to which the shoe is attached. The wheel is directly driven by means of an electric motor. The slow drive speed has been used because wear rates are generally more severe at slow speeds than at high speeds since more surface-to-surface contact can occur through the lubricating film.

Since the shoe has a flat contacting surface, the live contact pressure between shoe and wheel is extremely high at the beginning of the test. As would be expected, therefore, the highest wear is experienced at the start of the test with the wear rate diminishing with time (as the shoe wears, the psi loading decreases). While this type arrangement is unlike any actual bearing design, it does allow a convenient and rapid means of comparing wear rates.

Table LXII lists the types of treated refractory ceramic materials tested using the rub-shoe arrangement. For the most part, the variations consist in the oxide impregnation employed, which has been found to be a significant factor in the wear properties. Unless otherwise specified, the shoe width has been standardized at 0.25 inch with a wheel diameter of 1.10 inches.

                                      TABLE LXII                                   __________________________________________________________________________     RUB-SHOE TEST PARTS                                                                  Base  1st      2nd     Final                                                                              Rockwell                                                                            Mohs                                     Part No.                                                                             Material                                                                             Impreg.                                                                              No.                                                                               Impreg.                                                                             No.                                                                               Impreg.                                                                            Hardness                                                                            Hardness                                                                            Remarks                             __________________________________________________________________________     W-1   AP-94-l2                                                                             CrO.sub.3                                                                            5x None -- None     9-10                                     W-2   AP-94-l2                                                                             CrO.sub.3                                                                            5x None    85%      9-10                                     W-3   AP-94-l2                                                                             CrO.sub.3                                                                            4x ZrOCl.sub.2                                                                         1x 85%      9-10                                     W-4   AP-94-12                                                                             --    -- --   -- --  --   --                                       W-5   AP-94-l2                                                                             None  -- None -- 85%      8-9                                      W-6   AP-94-l2                                                                             ZrOCl.sub.2                                                                          5x None -- 85%      9-10                                     W-7   AP-94-l2                                                                             MgCrO.sub.4                                                                          5x None -- None     8-9                                      W-8   AP-94-l2                                                                             Ni(NO.sub.3).sub.2                                                                   5x None -- 85%      9-10                                     W-9   AP-94-l2                                                                             Co(NO.sub.3).sub.2                                                                   5x None -- 85%      9-10                                     W-10  AP-94-l2                                                                             SnCl.sub.2                                                                           5x None -- 85%      9-10                                     W-1-A AP-94-l2                                                                             CrO.sub.3                                                                            8x None -- 85%      9-10                                     W-7-A AP-94-l2                                                                             MgCrO.sub.4                                                                          5x None -- 85%                                               __________________________________________________________________________

Tables LXIII through LXVII show comparison runs for various treated refractory ceramic materials using a variety of lubricants. Some comparisons have also been made with conventional bearing materials such as a bearing bronze shoe riding against a mild steel wheel. Such comparisons, however, are not too meaningful since the metal bearings are used only under very lightly loaded conditions with good lubricants or else galling occurs. The better treated refractory ceramic materials under these conditions show negligible wear.

                                      TABLE LXIII                                  __________________________________________________________________________     RUB-SHOE WEAR-RATE COMPARISON TESTS                                            Load 10 lbs, Run Time 1 hr, Lubricant Alcohol, rpm 300                         Wheel Diameter 1.1", Shoe Width .25", Base Material AP-94-12                   __________________________________________________________________________                                             Wear      Wear                                                                               Wear                     Wheel                                                                               Salt    H.sub.3 PO.sub.4                                                                        Salt    H.sub.3 PO.sub.4                                                                   Wear  Length                                                                             Corrected                                                                            Width                                                                              Rate                     No.  Impreg.                                                                             No.                                                                               Impreg.                                                                            Shoe No.                                                                            Impreg.                                                                             No.                                                                               Impreg.                                                                            Depth (in)                                                                           (in)                                                                               Depth (in)                                                                           (in)                                                                               (in/ft)                                                                            Remarks              __________________________________________________________________________                                                           ×10.sup..sup.-                                                           9                        W-1  CrO.sub.3                                                                           5x None                                                                               W-1  CrO.sub.3                                                                           5x None                                                                               .000345                                                                              .240                                                                               .00033                                                                               .030                                                                               65                       W-2  CrO.sub.3                                                                           5x 85% W-2  CrO.sub.3                                                                           5x 85% .00029                                                                               .235                                                                               .00027                                                                               .030                                                                               53                       W-3  CrO.sub.3 +                                                                         4x 85% W-3  CrO.sub.3 +                                                                         4x 85% .00010                                                                               .250                                                                               .00010                                                                               .025                                                                               20                            ZrOCl.sub.2                                                                         1x          ZrOCl.sub.2                                                                         1x                                                  W-5  None -- 85% W-5  None -- 85% .000885                                                                              .250                                                                               .00089                                                                               .060                                                                               175                      W-6  ZrOCl.sub.2                                                                         5x 85% W-6  ZrOCl.sub.2                                                                         5x 85% .00075                                                                               .250                                                                               .00075                                                                               .060                                                                               147                      W-7  MgCrO.sub.4                                                                         5x None                                                                               W-7  MgCrO.sub.4                                                                         5x None                                                                               .000485                                                                              .250                                                                               .00049                                                                               .045                                                                               96                       W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% .000465                                                                              .250                                                                               .00047                                                                               .050                                                                               92                       W-9  Co(NO.sub.3).sub.2                                                                  5x 85% W-9  Co(NO.sub.3).sub.2                                                                  5x 85% .00125                                                                               .250                                                                               .00103                                                                               .075                                                                               200                      W-10 SnCl.sub.2                                                                          5x 85% W-10 SnCl.sub.2                                                                          5x 85% .00055                                                                               .250                                                                               .00055                                                                               .050                                                                               107                      W-1-A                                                                               CrO.sub.3                                                                           8x 85% W-1-A                                                                               CrO.sub.3                                                                           8x 85% .00000                                                                               N.M.                                                                               .00000                                                                               N.M.                                                                               0                        __________________________________________________________________________

                                      TABLE LXIV                                   __________________________________________________________________________     RUB-SHOE WEAR-RATE COMPARISON TESTS                                            Load 30 lbs, Run Time 2 hrs, Lubricant Alcohol, rpm 300                        Wheel Diameter 1.1", Shoe Width .25", Base Material AP-94--2                   __________________________________________________________________________                                             Wear      Wear                                                                               Wear                     Wheel                                                                               Salt    H.sub.3 PO.sub.4                                                                        Salt    H.sub.3 PO.sub.4                                                                   Wear  Length                                                                             Corrected                                                                            Width                                                                              Rate                     No.  Impreg.                                                                             No.                                                                               Impreg.                                                                            Shoe No.                                                                            Impreg.                                                                             No.                                                                               Impreg.                                                                            Depth (in)                                                                           (in)                                                                               Depth (in)                                                                           (in)                                                                               (in/ft)                                                                            Remarks              __________________________________________________________________________                                                           ×10.sup..sup.-                                                           9                        W-1  CrO.sub.3                                                                           5x None                                                                               W-1  CrO.sub.3                                                                           5x None                                                                               .00050                                                                               .235                                                                               .00047                                                                               .045                                                                               46                       W-2  CrO.sub.3                                                                           5x 85% W-2  CrO.sub.3                                                                           5x 85% .00041                                                                               .220                                                                               .00036                                                                               .035                                                                               35                       W-3  CrO.sub.3 +                                                                         4x 85% W-3  CrO.sub.3 +                                                                         4x 85% .000315                                                                              .220                                                                               .00028                                                                               .035                                                                               28                            ZrOCl.sub.2                                                                         1x          ZrOCl.sub.2                                                                         1x                                                  W-2  CrO.sub.3                                                                           5x 85% W-9  Co(NO.sub.3).sub.2                                                                  5x 85% .0093 .245                                                                               .00091                                                                               .055                                                                               89                       W-9  Co(NO.sub.3).sub.2                                                                  5x 85% W-2  CrO.sub.3                                                                           5x 85% .0071 .250                                                                               .00071                                                                               .060                                                                               70                       W-3  CrO.sub.3 +                                                                         4x 85% W-2  CrO.sub.3                                                                           5x 85% .0026 .230                                                                               .00024                                                                               .030                                                                               24                            ZrOCl.sub.2                                                                         1x                                                                   W-2  CrO.sub.3                                                                           5x 85% W-3  CrO.sub.3 +                                                                         4x 85% .0031 .200                                                                               .00025                                                                               .040                                                                               25                                             ZrOCl.sub.2                                                                         1x                                                  W-3  CrO.sub.3 +                                                                         4x 85% W-3  CrO.sub.3 +                                                                         4x 85% .00001                                                                               .220                                                                               .00021                                                                               .035                                                                               21  Re-run                    ZrOCl.sub.2                                                                         1x          ZrOCl.sub.2                                                                         1x                             after                                                                          Wheel                                                                          well                                                                           polished             W-1-A                                                                               CrO.sub.3                                                                           8x 85% W-1-A                                                                               CrO.sub.3                                                                           8x 85% .000045                                                                              .215                                                                               .00004                                                                               .020                                                                                4                       W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% .000765                                                                              .245                                                                               .00075                                                                               .065                                                                               74                       __________________________________________________________________________

                                      TABLE LXV                                    __________________________________________________________________________     RUB-SHOE WEAR-RATE COMPARISON TESTS                                            Load 10 lbs, Run Time 1 hr, Lubricant H.sub.2 O, rpm 300                       Wheel Diameter 1.1", Shoe Width .25", Base Material AP-94-12                   __________________________________________________________________________                                             Wear      Wear                                                                               Wear                     Wheel                                                                               Salt    H.sub.3 PO.sub.4                                                                        Salt    H.sub.3 PO.sub.4                                                                   Wear  Length                                                                             Corrected                                                                            Width                                                                              Rate                     No.  Impreg.                                                                             No.                                                                               Impreg.                                                                            Shoe No.                                                                            Impreg.                                                                             No.                                                                               Impreg.                                                                            Depth (in)                                                                           (in)                                                                               Depth (in)                                                                           (in)                                                                               (in/ft)                                                                            Remarks              __________________________________________________________________________                                                           ×10.sup..sup.-                                                           9                        W-1-A                                                                               CrO.sub.3                                                                           8x 85% W-1-A                                                                               CrO.sub.3                                                                           8x 85% N.M.  N.M.                                                                               N.M.  N.M.                                                                               N.M.                                                                               High                                                                           Wear                 W-3  CrO.sub.3 +                                                                         4x 85% W-3  CrO.sub.3 +                                                                         4x 85% .000135                                                                              .190                                                                               .000103                                                                              .025                                                                               20                            ZrOCl.sub.2                                                                         1x          ZrOCl.sub.2                                                                         1x                                                  W-2  CrO.sub.3                                                                           5x 85% W-2  CrO.sub.3                                                                           5x 85% .000145                                                                              .245                                                                               .000142                                                                              .035                                                                               28                       W-5  None -- 85% W-5  None -- 85% N.M.  N.M.                                                                               N.M.  N.N.                                                                               N.M.                                                                               High                                                                           Wear                 W-6  ZrOCl.sub.2                                                                         5x 85% W-6  ZrOCl.sub.2                                                                         5x 85% N.M.  N.M.                                                                               N.M.  N.M.                                                                               N.M.                                                                               Squeeks              W-7  MgCrO.sub.4                                                                         5x None                                                                               W-7  MgCrO.sub.4                                                                         5x None                                                                               .00094                                                                               .250                                                                               .000940                                                                              .070                                                                               177                      W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% W-8  Ni(NO.sub.3).sub.2                                                                  5x 85% N.M.  N.M.                                                                               N.M.  N.M.                                                                               N.M.                                                                               Squeeks              W-9  Co(NO.sub.3).sub.2                                                                  5x 85% W-9  Co(NO.sub.3).sub.2                                                                  5x 85% N.M.  N.M.                                                                               N.M.  N.M.                                                                               N.M.                                                                               Squeeks              W-10 SnCl.sub.2                                                                          5x 85% W-10 SnCl.sub.2                                                                          5x 85% .00286                                                                               .230                                                                               .000263                                                                              .115                                                                               52                       W-2-A                                                                               CrO.sub.3                                                                           5x 85%+                                                                               W-2-A                                                                               CrO.sub.3                                                                           5x 85%+                                                                               .000055                                                                              .225                                                                               .000050                                                                              .020                                                                               10                                    AlPO.sub.4       AlPO.sub.4                                       __________________________________________________________________________

                                      TABLE LXVI                                   __________________________________________________________________________     LUBRICANT COMPARISON RUNS USING W-8 RUB-SHOE                                   (NiO - 5x impregnation)                                                        __________________________________________________________________________                                            Corrected                                            Load                                                                              Run Time Wear Depth                                                                            Wear Length                                                                           Depth Wear Width                                                                            Wear Rate                  Run No.                                                                             Lubricant                                                                              (lbs)                                                                             (hrs) rpm                                                                               (in)   (in)   (in)  (in)   (in/ft)                                                                              Remarks              __________________________________________________________________________     1    Alcohol 30 2     300                                                                               .000765                                                                               .245         .065   ×10.sup..sup.-9                                                          4                                                                              74                         2    Polyethylene                                                                           30 2     300                                                                               .000405                                                                               .250   .000248                                                                              .050   24                              Glycol                                                                    3    Tap Water                                                                              30 2     300                                                                               N.M.   N.M.   N.M.  N.M.   N.M.                       4    No. 10 SAE Oil                                                                         30 2     300                                                                               .000005                                                                               .175         .010                              5    Paraffin                                                                               30 2     300                                                      __________________________________________________________________________

                                      TABLE LXVII                                  __________________________________________________________________________     LUBRICANT COMPARISON RUNS USING W-3 RUB-SHOE                                   (CrO.sub.3 - 8x impregnation)                                                                                         Corrected                               No.          Load                                                                              Run Time Wear Depth                                                                            Wear Length                                                                           Depth Wear Width                                                                            Wear Rate                  Run No.                                                                             Lubricant                                                                              (lbs)                                                                             (hrs) rpm                                                                               (in)   (in)   (in)  (in)   (in/ft)                                                                              Remarks              __________________________________________________________________________     1    Tap Water                                                                              30 2     300                                                                               N.M.   N.M.   N.M.  N.M.   N.M.                       2    Alcohol 30 2     300                                                                               .00001 .220         .035   .88                        3    No. 10 SAE Oil                                                                         30 2     300                                                                               .000005                                                                               .235         .025   .49                        4    Tap Water                                                                              10 1     300                                                      __________________________________________________________________________

The treated refractory ceramic material has been found to perform most satisfactorily as a bearing when used against a like material. This is unlike metal bearings where different metals are invariably used to achieve low wear rates. The reason for this behaviour is not fully understood.

The Bearings and Seals branch of the Marine Engineering Laboratory of the U.S. Navy Department employs a single rub-shoe test for their sea water lubricated materials. In this case, the shoe has a 1 inch width (usually made as 1 inch cube) and rides on a 11/4 inch wide × 2 inch diameter wheel. The rpm is adjustable over a range of from 3 to 300. The standard loading is 4 lbs.

Similar tests were conducted using several of the single oxide impregnated chemically treated and hardened ceramic materials. Wear rates were measured to be between 1.55 × 10.sup.⁻⁹ and 3.1 × 10.sup.⁻⁹ inches of wear/ft. of travel with 1 inch contact length, 4 lb. load at point of contact, 60 rpm wheel speed, sea water lubrication and 92 hours running time. This is at least two orders of magnitude less wear than with the titanium carbide/carbon combination presently beins used for submarine seals by the M.E.L. Multi-oxide impregnated materials provide even lower wear rates.

Life tests have been made on several bearing configurations. They have been lubricated with various oils and water. Two oil lubricated bearings have a total running time to date of over 6615 hours at 1800 rpm without any visible signs of wear. A radially loaded dual bearing had one bearing running in No. 10 SAE motor oil and the other running under sea water operated at 3200 rpm. The load on these bearings totals 1.5 pounds. These bearings have been operated continuously for over 5272 hours with no sign of wear. It should be noted that a bearing to be used with or under water should be cured at a temperature which is at least sufficiently high to drive all of the water of crystallization out of the ceramic and convert the structure thereof to a water-insoluble state. As indicated previously, this temperature is found to be at least about 600° to about 1000° F. for the aluminum oxide ceramics.

It will be appreciated that these bearings have marine applications in a submersible system and would not require special seals, special lubrication or added buoyancy problems. Silicone lubricated bearings would be useful in low temperature applications and the bearings are also useful in liquid metal lubricated systems.

From room temperature to 600° F., the friction coefficient of the treated refractory ceramic materials has been found to remain extremely low. The ceramic materials exhibit a higher friction coefficient between about 800° and 1200° F. Above this temperature, however, it again begins to slide more freely, attaining a reasonably low coefficient as 2000° F. temperatures are approached. Since this behaviour of increasing and then decreasing friction with temperature is almost identical to that reported for fully vitrified aluminum oxide ceramics, it is expected that the aluminum oxide base of the treated refractory ceramic is the major contributing factor to the related elevated temperature behavior.

The fact that the treated refractory material can be fabricated with a relatively high degree of porosity suggests the possible use of solid lubricants. This can be accomplished by impregnating the porous ceramic with a salt solution convertible to a solid lubricant, such as a salt of molybdenum or cadmium, and converting same in situ to the sulfide.

A variation in the chemical hardening and salt impregnation method of this invention results in an excellent abrasive material for the honing and finishing of metals. When treated correctly, such an abrasive stone will remove metal very rapidly in addition to having the feature of not loading the stone with metal particles.

The basic material found to be most satisfactory for this purpose is Coors AHP-99 aluminum oxide, although others have been found to be satisfactory. The chemical hardening treatment is different than that used to process standard treated ceramic parts and bearings, however. After machining to the desired shape, the ceramic material is first treated with a reduced strength or starved phosphoric acid solution of less than 85% and then cured at at least 600° F. Following this, a salt impregnation may be added and the piece re-cured at a temperature sufficient to convert the salt to an oxide. (For standard ceramic pieces, the salt impregnation is made prior to the chemical hardening treatment.) This procedure has been found to retain a high degree of porosity, in addition to providing the necessary low loading of the pores and rapid cutting properties. It will be noted that 85% phosphoric acid saturated with aluminum phosphate will also provide the necessary starved acid solution.

The most significant advantages of this new abrasive material should be in the fact that the desired shapes and close tolerances can be generated prior to the hardening of the abrasive. When using sintering techniques in the production of abrasives, a high proportion of the expense is in the grinding and finishing operations. A further advantage of the present process may be in the low temperature - short time cycle involved in the curing and hardening process, as compared to the presently employed high temperature sintering method. Tables LXVIII and LXIX illustrate a variety of abrasive materials resulting from varying the acid concentration and the impregnant.

                                      TABLE LXVIII                                 __________________________________________________________________________     HONING MATERIAL TESTS USING VARIOUS ACID CONCENTRATIONS                                    1st Treatment                                                             Base        H.sub.2 O Salt                                              Sample No.                                                                            Material                                                                            85% H.sub.3 PO.sub.4                                                                  Parts by Volume                                                                          Impregnation                                                                          Hardness                                                                            Characteristics                                                                            Rating                                                                               Grade               __________________________________________________________________________     1-H    AHP-99                                                                              (1)    (1)       None        Grabs and Slips                                                                            Poor  --                  2-H    AHP-99                                                                              (1)    (1)       CrO.sub.3   Grabs and Slips                                                                            Poor  --                  3-H    AHP-99                                                                              (1)    (1)       ZrOCl.sub.2 Grabs and Slips                                                                            Poor  --                  4-H    AHP-99                                                                              (1)    (2)       None        Not as Good as                                                                             Good  Coarse              5-H    AHP-99                                                                              (1)    (2)       CrO.sub.3   Fast Cutting                                                                               Excellent                                                                            Coarse              6-H    AHP-99                                                                              (1)    (2)       ZrOCl.sub.2 Fast Cutting                                                                               Excellent                                                                            Coarse              7-H    AHP-99                                                                              (1)    (3)       None        Not as Good as                                                                             Good  Coarse                                                       Only Good Cutting                     8-H    AHP-99                                                                              (1)    (3)       CrO.sub.3   Fast Cutting                                                                               Excellent                                                                            Coarse              9-H    AHP-99                                                                              (1)    (3)       ZrOCl.sub.2 Fast Cutting                                                                               Excellent                                                                            Coarse              10-H   AHP-99                                                                              (1)    (4)       None        Not as Good as                                                                             Good2 Coarse                                                       Fairly Fast Cutting                   11-H   AHP-99                                                                              (1)    (4)       CrO.sub. 3  Not as Good as                                                                             Excellent                                                                            Coarse              12-H   AHP-99                                                                              (1)    (4)       ZrOCl.sub.2 Fast Cutting                                                                               Excellent                                                                            Coarse              __________________________________________________________________________

                                      TABLE LXIX                                   __________________________________________________________________________     HONING MATERIAL TESTS USING VARIOUS OXIDE IMPREGNATIONS                                    1st Treatment                                                             Base        H.sub.2 O Salt                                              Sample No.                                                                            Material                                                                            85% H.sub.3 PO.sub.4                                                                  Parts by Volume                                                                          Impregnation                                                                          Hardness                                                                            Characteristics                                                                          Rating                                                                              Grade                  __________________________________________________________________________     1-Q    AHP-99                                                                              (1)    (2)       Be(NO.sub.3).sub.2                                                                         Grabs Very Slightly                                                                      Excellent                                                                           Fine                   4-Q    AHP-99                                                                              (1)    (2)       Ni(NO.sub.3).sub.2                                                                         Grabs Slightly                                                                           Good Med. Fine              5-Q    AHP-99                                                                              (1)    (2)       Th(NO.sub.3).sub.2                                                                         Fairly Fast Cutting                                                                      Good Med. Coarse            6-Q    AHP-99                                                                              (1)    (2)       SnCl.sub.2  Fast Cutting                                                                             Excellent                                                                           Coarse                 7-Q    AHP-99                                                                              (1)    (2)       Ti.sub.2 (C.sub.2 O.sub.4).sub.3                                                           Fast Cutting                                                                             Excellent                                                                           Coarse                 8-Q    AHP-99                                                                              (1)    (2)       Zr(NO.sub.3).sub.2                                                                         Fast Cutting                                                                             Excellent                                                                           Coarse                 9-Q    AHP-99                                                                              (1)    (2)       MgCrO.sub.4 About Same as 5-Q                                                                        Good Med. Coarse            6-H    AHP-99                                                                              (1)    (2)       ZrOCl.sub.2           Excellent                                                                           Coarse                 5-H    AHP-99                                                                              (1)    (2)       CrO.sub.3             Excellent                                                                           Coarse                 17-Q   AHP-99                                                                              (1)    (2)       Cu(NO.sub.3).sub.2                                                                    5-6  Fast Cutting                                                                             Excellent                                                                           Fine                   18-Q   AHP-99                                                                              (1)    (2)       FeCl.sub.2                                                                            4-5  Fairly Fast Cutting                                                                      Good Med.                   19-Q   AHP-99                                                                              (1)    (2)       La(NO.sub.3).sub.2                                                                    3-4  Very Fast Cutting                                                                        Excellent                                                                           Coarse                 20-Q   AHP-99                                                                              (1)    (2)       L.sub.1 C.sub.2 H.sub.3 O.sub.2                                                       3-4  Fast Cutting                                                                             Excellent                                                                           Med.                   21-Q   AHP-99                                                                              (1)    (2)       Sr(NO.sub.3).sub.2                                                                    6-7  Slips Slightly                                                                           Good Med. Coarse            22-Q   AHP-99                                                                              (1)    (2)       H.sub.4 SiW.sub.16 O.sub.40                                                           5-6  Very Fast Cutting                                                                        Excellent                                                                           Coarse                 __________________________________________________________________________

It was further found that, on impregnating and curing the aluminum oxide several times with chromic acid, there is produced a material which exhibits marked changes in conductivity, both electrical and heat conductivity, with changes in temperature. As an example, a piece of Coors AP-99-L3 aluminum oxide 0.625 inch in diameter and 0.040 inch thick was impregnated with chromic acid and cured through seven cycles and then given a final phosphoric acid treatment and cure. This specimen exhibited an electrical resistance of 185K ohms at 45° F. When heated to 70° F., this specimen had an electrical resistance of 80K ohms, and at 1000° F., the resistance dropped to 6.5 ohms. Another piece of Coors AP-99-L3 aluminum oxide 2.0 inches long and 0.25 inch in diameter was given a single chromic oxide impregnation. This piece was subjected to increasing voltage gradients over its length and displayed increasing current conductance to higher potentials as follows: 6KV-4.8 μa; 12KV-11 μa; 18KV-15.5 μa; 24KV-23 μa; and, 30KV-31 μa.

While it is not known exactly what occurs when the underfired, porous, substantially pure refractory oxide ceramic is impregnated with phosphoric acid and cured, it is believed that possibly due to the nascent character of the surfaces of the porous structure, a chemical reaction or reorientation occurs as possibly evidenced by the unidentified line on the X-ray diffraction analysis. The pores of the porous starting material appear to be packed with a reaction product to provide an increase in the density of the treated material. The packing of the reaction product within the pores of the skeletal refractory base material appears to provide support therefor and when the density approaches the maximum, the hardness and strength of the material approaches a maximum.

Certain oxide additives, such as chromic oxide, when impregnated into substantially pure porous refractory oxides, will provide a substantial enhancement of the hardness and strength of such material without further treatment. Here again, the mechanism by which this is accomplished is not fully understood. It is not certain whether a true reaction occurs between the refractory base material and the oxide formed, whether there is a chemical linkage or sharing of electrons or whether the oxide is merely physically deposited. It would appear that something akin to a chemical bonding occurs. This is further borne out by the finding that when the refractory aluminum oxide base material is impregnated with phosphoric acid and cured, the thus treated material will not respond to or react with the oxide producing material. Where one or several impregnations with an oxide producing material has been made and appropriately cured, further impregnations and cures with the oxide producing materials will usually result in further accumulation of the oxide; however, once the phosphoric acid is impregnated into the refractory base material and cured, the base material will not materially be hardened by any further oxide additions. This would appear to indicate a completion of a chemical reaction between the refractory base oxide and the phosphoric acid on being cured to produce the unidentified reaction product having d plane spacing of 4.12 angstroms.

It was found that the higher the purity of the porous partially sintered refractory oxide base material, the harder the treated and cured product. Using as a starting material Coors AP-99-L3 which contains 99% aluminum oxide, it is possible to produce a hardness of Rockwell A-90 with the treating process of this invention. The base material can be treated with either phosphoric acid or a salt convertible to an oxide or both. The phosphoric acid appears to react with the base or skeletal oxide and possibly with the added oxide as well. While phosphoric acid is to be preferred from the point of ease of use, other materials may be used as the source of the phosphate ion which are capable of releasing same, such as sodium phosphate and sodium triphosphate in solution.

Applicants' previously filed application, of which the present application is a continuation in part, discloses and claims the chemical treatment of partially sintered refractory base materials. It has now been found that the base refractory material can be prepared from a powder or other finely divided form of the base material by the incorporation of a suitable binder therewith, such as a clay, kaolin and the like, and then pressed, molded, slip-cast, extruded or otherwise processed into a shape so that the base oxide particles are packed into close proximity. The packing of the particles is such that the resulting structure is porous and has a substantial amount of interconnecting voids to allow for adequate impregnation with the chemical treating solution. In lieu of a binder, the particles may be wetted with the chemical treating solution and packed into a mold or packed into a mold and wetted, then impregnated with the chemical treating solution and cured through at least one impregnation and cure cycle whereby the particles are held together sufficiently to permit handling and removal from the mold. It is also possible to form a mixture of the chemical treating solution and the particles with just enough solution to wet the particles or add sufficient binder to produce a kneadable mass which can be shaped and cured. After the initial shaping, these pieces are subjected to multiple cycle impregnations and cures to produce the necessary hardness in the finished piece. The chemical treating solution is a solution of a compound which is capable of being converted to a metal oxide within the voids between particles forming the structure at temperatures below the sintering temperatures of the particles and which fall within the range of from about 600° to about 1500° F.

The hardening of structures formed from relatively finely divided particles of the base refractory materials has several advantages over starting with partially sintered pieces, first in avoiding the need for the initial moderately high temperature sintering step and, second, the powder forming method allows the use of a wide variety of starting materials which are not readily available in sintered form or may be difficult to sinter. Also, a wide variety of oxide mixtures may be employed with almost any percentage variation without regard to how such oxides would act when fused together using normal high temperature manufacturing methods. Also, very pure oxide bodies can be employed, unlike the case with sintered bodies where silica, magnesia and other fluxing materials are added to reduce sintering temperatures to practical limits. Finally, this new method allows for the incorporation of ceramic fibers, metal powders and a wide variety of reinforcing materials such as wires, screens and the like. Even glass cloth reinforcing can be employed because of the low curing temperatures involved.

The hardening process preferably comprises the use of multiple impregnations of the porous body with a solution of a compound capable of being converted to an oxide at temperatures below the sintering temperature of the body and heating the body to convert the compound to the oxide. The chemical solution usually consists of a relatively concentrated water solution of a soluble metal salt or oxide that is convertible to a stable oxide by the application of heat. Compounds which satisfy this requirement are, for example: cerrous nitrate, zirconyl chloride, cobalt and nickel nitrate, titanium oxalate, silico-tungstic acid, magnesium chromate, beryllium nitrate, chromium trioxide or chromic acid, chromium sulfate, chromium chloride and the like. The preferred compound of a particular metal is usually selected on the basis of maximum solubility. The higher the solubility, the greater the amount of the metal oxide will be deposited in the refractory oxide body after each chemical inpregnation-cure cycle. For this same reason, a concentrated solution is to be preferred to a dilute solution of the compound. Alcohol, ether and other solvents may be used; however, water is preferred because of its greater solubility characteristic for most all of the metal salts and oxides under consideration. Other factors, such as salt to oxide conversion temperatures, stability throughout the conversion temperature range, relationship of crystal sizes during conversion to the interstitial spaces in the porous base material, desired hardness and strength of the final product are other considerations in the selection and preparation of the impregnating chemical solution.

The most desirable chemical treatment from the standpoint of achieving maximum hardness and strength has been found to be one or more of the high solubility chromium compounds. Among these, concentrated chromic acid has been found to be the most efficient in terms of achieving maximum hardness in the fewest number of impregnation-cure cycles. It should be pointed out, however, that other chromium compounds also have advantages. For example, the tri-valent salts such as the chloride or sulfate can be employed when the hexavalent chromium trioxide form may present a health hazard. Also, a non-acidic form such as magnesium chromate may be desirable when chemically hardening basic refractory bodies such as calcium oxide.

While the chromic acid impregnation-treatment process has many advantages, the treated refractory body is generally not suitable for low-loss electrical parts because of the negative electrical resistivity characteristics with increasing temperature as pointed out previously. If low electrical conductivity is required over wide temperature ranges, then one of the other hardening treatments, such as cerrous nitrate, zirconium oxychloride, beryllium nitrate, etc., would be used.

It is significant that the process of this invention involves multiple chemical treatments to achieve maximum hardness, at least two or more treatments being required in every case. As briefly mentioned previously, it has been found that a variety of metal salts and soluble oxides can be used for this chemical hardening process, some with greater success than others as far as ultimate hardness and strength is concerned. It appears that, during the initial heat conversion, the refractory oxide formed, such as Cr₂ O₃ and the like, makes a very strong bond to the refractory oxide particles, such as alumina and the like, used as the porous oxide body. Subsequent treatments, on the other hand, appear to form a strong bond to the oxide previously deposited. A thin section (petrographic) slide of a porous alumina body indeed reveals that the initial chromic acid treatment, followed by conversion to the Cr₂ O₃ form by heat, results in a thorough coating of the alumina particles by the green oxide. By examining pores of relatively large cross section, there is seen to be a continuation of this coating effect as subsequent impregnations-heat conversion cycles are applied. Referring to the photographs of FIGS. 1, 2 and 3, there is shown a pressed body of Coors AP-99-L3 alumina powder with successive impregnation-cure cycles using concentrated chromic acid according to the present invention. FIG. 1 shows a section of the body after a single chromic acid impregnation and cure. The structure as shown in FIG. 1 is quite rough showing considerable unfilled voids. FIG. 2 shows a section of the same body after a total of five impregnation-cure cycles with chromic acid. It is seen that the texture of the body is less rough and many of the voids are filled and filling up. FIG. 3 shows a section of the same body after undergoing a total of nine 9 impregnation-cure cycles with chromic acid. Here, it is seen that the texture is even less rough and many of the voids have been filled. FIG. 4 is a grid with the large divisions being spaced at 0.1 millimeter and the small divisions spaced at 0.01 millimeter photographed at the same magnification as FIGS. 1-3 to provide a scale. The converted oxide has been found to exhibit a strong attraction to either the oxide used as the initial pressed body, or subsequently, to itself. The center of the pores are seen to fill up only after several treatments. The hardness of such a porous oxide body increases considerably as the treatment process is repeated.

A porous alumina body was treated with a diluted phosphoric acid solution and cured prior to the chromic acid treatment. Here, it was seen by examination of a thin section slide that the chromia was not attracted or deposited on the aluminum phosphate surface but, rather, appeared to fill up the larger pores with a loosely packed or porous green material even with the initial treatment. In this case, the chromia does not appear to make an effective bond to aluminum phosphate as it did to the aluminum oxide of the previous example.

While many of the refractory oxides can be effectively coated with a moderately well adhering layer of chromia using the chromic acid treatment method, production of strongly bonded refractory materials have been found to require the presence of small pores, gaps, cracks or interstices. Under such conditions, a very hard and dense part will result. Also, as might be anticipated, physical hardness with a given number of chemical treatments, and using a particular refractory oxide material, will depend on the particle size, shape and packing pressure employed. If the pore sizes are too large, it may take an excessive number of treatments before the body attains a high degree of hardness. If the spaces are too small, then the chemical solution cannot penetrate properly. While the statements above have been directed primarily to the chromic acid treatment, this was by way of example only. The same effects have generally been found to be true with many of the other soluble metal salt and oxide solutions mentioned.

It also should be noted that it is not essential to use a refractory oxide base material in order to obtain a hardened product using the chemical treatment method according to the present invention. The main requirement is for the base structure to contain the necessary small voids and interstices in which the oxide may be formed. For example, a piece of woven glass cloth has been effectively hardened in this manner and becomes brittle and ceramic-like in nature after only a few chromic acid impregnations and cures. In a like manner, compacted steel wool; kaolin and alumina fibers, kaolin, glass and quartz paper, and the like have been effectively hardened. In addition, it has been found that a variety of lightly pressed metal powders can be similarly hardened. A chemical bond appears to be occurring between the chromic oxide and the pressed material. As in the case of pressed porous oxide bodies, multiple treatments are required to produce a well bonded and hard structure with the other materials. It appears that the chemical bonding occurs with an oxide since, where the initial base material is other than an oxide, i.e., a metal powder, the formation of an oxide coating thereon appears to be necessary before satisfactory bonding action takes place. There is almost always a layer of oxide on the particles or one is formed in situ during the impregnation and curing process with the oxygen being supplied from the atmosphere or by the reagents. If, as in the case of titanium metal powder, where the formation of a suitable oxide coating may not occur during the curing step, an oxidation step may precede the chemical treatment. This may involve only a simple heating step to a temperature to produce an oxide coating on the particles. It will also be noted that oxide which is deposited and formed in the voids and interstices of the porous body serves as a bonding agent for subsequent oxide depositions.

Table LXX shows the hardness results achieved with a wide variety of pressed oxide structures treated with chromic acid. The chromic acid in this case was prepared as a concentrated aqueous solution by adding chromium trioxide (CrO₃) to water until no more crystals would dissolve at room temperature. The samples were formed by mixing a small quantity of concentrated chromic acid with the refractory oxide powder and pressing the damp mix into a ring type mold. Pressing was accomplished either by means of an hydraulic press using a die of the approximate 1/2 inch mold diameter or in later tests was done by means of hand tamping with a small flat die punch. The hand tamping method appears to provide more uniform results, especially when certain "hard-to-flow" type oxides are encountered. The pressed samples were then oven cured to a maximum of 1200° F. The still porous samples were then heated to 350° F., immersed in concentrated chromic acid, removed and then heated slowly to 1200° F. and the process repeated for the number of cycles indicated in Table LXX.

A typical curing cycle is as follows: Body heated to room temperature of up to 350° F. immersed in concentrated chromic acid solution; remove from acid solution and cure in an oven at 150° F. for 20 minutes; cure at 350° F. for 20 minutes; cure at from 500° to 550° F. for 30 minutes, cure at 750° to 800° F. for 20 minutes; cure at 1200° F. for 15 to 20 minutes, remove from oven; and, cool to room temperature or to 350° F. for further immersion. These steps would, of course, be repeated for multiple cycle treatment.

Heating the body to 350° F. prior to immersion in the chemical solution was done only as an attempt to create a partial vacuum within the part upon cooling to enhance complete impregnation with the treating solution. It has been found that capillary action is usually sufficient to cause complete impregnation within the parts even at room temperature; however, it has been found that improved impregnation is accomplished by heating the impregnating solution, particularly chromic acid. A temperature on the order of 190° F. for chromic acid produces an increase in impregnation on the order of about 10%.

In order to assure flat smooth surfaces, especially with the hand tamped samples, the test pieces were lightly sanded on silicon carbide abrasive paper after the first or second cycle. Early finishing was done only to avoid the necessity of diamond lapping which, for most of these samples, would be required after three or four impregnations.

Table LXXI has been included for comparison purposes and gives the 15-N Rockwell hardness values for a variety of common materials. It can be seen that some of the oxides hardened by the method of the present invention as listed in Table LXX become extremely hard. Table LXXII is a conversion table for Rockwell A hardness to Rockwell 15-N over a limited range.

Table LXXIII shows the test results obtained with structures press formed from finely divided mixtures of refractory oxides. These structures were prepared in the same manner as those described above for those shown in Table LXX. The ultimate hardness of a structure appears to be generally predictable, based on the single oxide hardness of the particular oxides used.

                                      TABLE LXX                                    __________________________________________________________________________     HARDNESS MEASUREMENTS FOR PRESSED SAMPLES COMPOSED OF                          HIGH-PURITY SINGLE OXIDES WITH MULTIPLE CHROMIC ACID IMPREGNATION-CURE         CYCLES                                                                         __________________________________________________________________________                                 15-N Rockwell Hardness vs. No. Impregnations       Sample                                                                             Base Oxide Material                                                                          Forming Pressure                                                                         3x  5x   7x   9x   11x 13x                         __________________________________________________________________________     97  Al.sub.2 O.sub.3 (30μ Meller 99.98%                                                       20,000 psi                                                                               57.4                                                                               80.7 --   91.6 92.7                                                                               94.6                        116 Cr.sub.2 O.sub.3                                                                             Hand Tamped                                                                              84.5                                                                               88.1 94.3 96.2 96.0                                                                               96.6                        J   TiO.sub.2 (anatase)                                                                          20,000 psi                                                                               --  --   78.6 83.6 89.9                                                                               90.0                        K   TiO.sub.2 (rutile)                                                                           20,000 psi                                                                               --  84.3 89.6 91.7 91.4                                                                               91.7                        W   ZrO.sub.2     10,000 psi                                                                               --  88.4 90.0 90.5 93.1                                                                               91.0                        98  BeO           20,000 psi                                                                               84.1                                                                               91.9 92.4 95.2 95.5                                                                               95.3                        Y   HySiO.sub.2   10,000 psi                                                                               --  81.0 86.7 92.0 94.3                                                                               93.1                        Z   NiO           10,000 psi                                                                               --  78.8 86.5 86.5 89.2                                                                               88.9                        AA  CoO           10,000 psi                                                                               --  75.1 85.9 89.3 89.0                                                                               --                          BB  CeO           10,000 psi                                                                               --  85.1 88.4 90.3 89.8                                                                               --                          CC  Fe.sub.2 O.sub.3                                                                             10,000 psi                                                                               --  84.8 86.2 89.1 91.0                                                                               --                          28  AlOH          20,000 psi                                                                               57.0                                                                               75.8 84.3 88.2 86.8                                                                               89.5                        111 SnD.sub.2     20,000 psi                                                                               84.5                                                                               87.0 --   93.8 93.9                                                                               94.7                        188 MnO.sub.2     Hand Tamped                                                                              --  --   68.7 --   77.5                                                                               84.3                        190 WO.sub.3      Hand Tamped                                                                              59.5                                                                               --   74.0 84.1 85.5                                                                               85.8                        191 Ta.sub.2 O.sub.5                                                                             Hand Tamped                                                                              77.8                                                                               85.4 89.6 91.1 92.2                                                                               90.8                        222 Fe.sub.3 O.sub.4                                                                             Hand Tamped                                                                              84.7                                                                               88.0 91.5 94.2 95.5                                                                               95.4                        __________________________________________________________________________

                  TABLE LXXI                                                       ______________________________________                                         15N-ROCKWELL HARDNESS VALUES                                                   FOR SOME COMMON MATERIALS                                                      ______________________________________                                         Titanium, Type A         15N-63                                                Cold Rolled Steel (1040) 15N-69                                                303 Stainless Steel      15N-69.6                                              416 Stainless Steel      15N-72                                                Beryllia Ceramic (Coors BD-96                                                                           15N-88.5                                              Titania Ceramic (AlSiMag 192)                                                                           15N-89.6                                              Spring Steel (Hack Saw Blade)                                                                           15N-91                                                Hardened Tool Steel (Rex AAA)                                                                           15N-92.4                                              Pyrex Glass, Tempered    15N-93.6                                              Alumina Ceramic (Coors AD-94)                                                                           15N-94.2                                              Alumina Ceramic (Coors AD-995)                                                                          15N-94.8                                              Tungsten Carbide Alloy (Carboloy 603)                                                                   15N-95.9                                              ______________________________________                                          Note:                                                                          Above average readings were made on actual samples. Values may not             necessarily agree with those of manufacturers published data.            

                  TABLE LXXII                                                      ______________________________________                                         HARDNESS CONVERSION - ROCKWELL A TO ROCKWELL 15-N                              Rockwell A                                                                             Rockwell 15-N                                                                               Rockwell A Rockwell 15-N                                  ______________________________________                                         92.0    96.5         79.0       88.5                                           91.5    --           78.5       88.0                                           91.0    96.0         78.0       87.5                                           90.5    --           77.5       87.0                                           90.0    95.5         77.0       86.5                                           89.5    --           76.5       86.0                                           89.0    95.0         76.0       85.5                                           88.5    --           75.5       85.0                                           88.0    94.5         74.5       84.5                                           87.0    --           74.0       84.0                                           86.5    94.0         73.5       83.5                                           86.0    93.5         73.0       83.0                                           85.5    --           72.5       82.5                                           85.0    93.0         72.0       82.0                                           84.5    92.5         71.5       81.5                                           84.0    92.0         71.0       81.0                                           83.5    --           70.5       80.5                                           83.0    91.5         70.0       80.0                                           82.5    91.0         69.5       79.5                                           81.5    90.5         69.0       79.0                                           81.0    90.0         68.5       78.5                                           80.5    89.5         68.0       78.0                                           80.0    --           67.5       77.0                                           79.5    89.0         67.0       76.5                                           66.5    76.0         63.0       72.0                                           66.0    75.5         62.5       71.5                                           65.5    75.0         62.0       71.0                                           65.0    74.5         61.5       70.5                                           64.5    74.0         61.0       70.0                                           64.0    73.5         60.5       69.5                                           63.5    72.5                                                                   ______________________________________                                    

                                      TABLE LXXIII                                 __________________________________________________________________________     HARDNESS MEASUREMENTS FOR PRESSED SAMPLES COMPOSED OF                          HIGH PURITY MIXED OXIDES WITH MULTIPLE CHROMIC ACID IMPREGNATIONS              __________________________________________________________________________                                       15-N Rockwell Hardness vs No.                                                  Impregnations                                Sample                                                                             Base Oxide Material Forming Pressure                                                                         3x  5x  7x  9x  11x 13x                      __________________________________________________________________________                                                           .                        EE  ZrO.sub.2 (1) + Al.sub.2 O.sub.3 -tabular(1)                                                       10,000 psi                                                                               --  87.7                                                                               91.0                                                                               92.9                                                                               92.4                                                                               93.1                     225 Cr.sub.2 O.sub.3 (4) + Fe.sub.3 O.sub.4 (1)                                                        Hand Tamped                                                                              --  89.5                                                                               94.0                                                                               94.4                                                                               95.7                                                                               96.2                     GG  BeO(1) + Al.sub.2 O.sub.3 -tabular(1)                                                              10,000 psi                                                                               --  92.0                                                                               91.7                                                                               94.0                                                                               94.6                                                                               92.5                     HH  NiO(1) + Al.sub.2 O.sub.3 -tabular(1)                                                              10,000 psi                                                                               --  85.2                                                                               88.6                                                                               90.7                                                                               91.4                                                                               91.7                     7   TiO.sub.2 -rutile(2) + Al.sub.2 O.sub.3 -tabular(1)                                                20,000 psi                                                                               80.0                                                                               86.2                                                                               91.5                                                                               92.2                                                                               91.5                                                                               93.0                     8   TiO.sub.2 -rutile(1) + Al.sub.2 O.sub.3 -tabular(1)                                                20,000 psi                                                                               79.6                                                                               87.6                                                                               91.9                                                                               89.6                                                                               91.3                                                                               89.7                     9   TiO.sub.2 -rutile(1) + Al.sub.2 O.sub.3 -tabular(1)                                                20,000 psi                                                                               78.2                                                                               89.6                                                                               93.0                                                                               93.4                                                                               90.1                                                                               89.9                     10  CeO(1) + Al.sub.2 O.sub.3 -tabular(1)                                                              20,000 psi                                                                               81.4                                                                               88.3                                                                               91.4                                                                               91.4                                                                               91.4                                                                               92.5                     11  Fe.sub.2 O.sub.3 (1) + Al.sub.2 O.sub.3 -tabular(1)                                                20,000 psi                                                                               82.4                                                                               87.3                                                                               91.6                                                                               92.7                                                                               93.5                                                                               93.5                     13  Cr.sub.2 O.sub.3 (1) + Al.sub.2 O.sub.3 -tabular(1)                                                20,000 psi                                                                               82.8                                                                               90.4                                                                               93.6                                                                               94.5                                                                               94.4                                                                               94.5                     14  Cr.sub.2 O.sub.3 (1) + Al.sub.2 O.sub.3 -tabular(2)                                                20,000 psi                                                                               81.8                                                                               90.8                                                                               91.1                                                                               93.9                                                                               93.4                                                                               94.1                     15  Cr.sub.2 O.sub.3 (1) + TiO.sub.2 -rutile(1)                                                        20,000 psi                                                                               83.0                                                                               86.9                                                                               90.1                                                                               90.4                                                                               92.4                                                                               91.9                     16  Cr.sub.2 O.sub.3 (1) + BeO(1)                                                                      20,000 psi                                                                               83.5                                                                               92.2                                                                               --  95.5                                                                               95.4                                                                               96.7                     17  Cr.sub.2 O.sub.3 (1) + ZrO.sub.2 (1)                                                               20,000 psi                                                                               85.0                                                                               88.7                                                                               92.1                                                                               93.5                                                                               93.6                                                                               94.6                     18  BeO(1) + TiO.sub.2 -rutile(1)                                                                      20,000 psi                                                                               80.3                                                                               89.3                                                                               92.3                                                                               88.6                                                                               94.2                                                                               93.5                     19  ZrO.sub.2 (1) + TiO.sub.2 -rutile(1)                                                               20,000 psi                                                                               75.7                                                                               81.6                                                                               86.1                                                                               88.2                                                                               89.5                                                                               92.3                     20  ZrO.sub.2 (1) + BeO(1)                                                                             20,000 psi                                                                               81.9                                                                               87.8                                                                               92.0                                                                               94.0                                                                               95.1                                                                               94.3                     __________________________________________________________________________

Samples were prepared to determine the effect of particle size on the hardness of pressed refractory oxides hardened by means of the present chemical process. Samples described below were chemically treated with chromic acid and cured at a maximum temperature of 1200° F.

Table LXXIV covers Rockwell hardness measurements for samples pressed from several grades of Meller 99.8% aluminum oxide. The tests were conducted on samples predominently of 0.06 μ, 0.3 μ, 1.0 μ particle size in addition to a 1-30 μ and a 5-10 μ range particle size. It is interesting to note from the table that there is very little difference in the hardness values achieved with any of these various size oxides except for the 5-10 μ type which gave noticeably lower values.

Because of the limited particle size distribution of the 5-10 μ powder, it is quite probable that the pressed body has a structure composed of both large and small pores. This would be primarily due to the lack of fine particles to fit into the spaces between the larger ones. Such a structure is difficult to completely harden since, once the smaller pores or passages become filled, there is no longer any way to reach the larger, and by now sealed off, spaces with subsequent treatments.

Table LXXV shows the results of another comparison using Alcoa T-61 tabular alumina (˜99.3% Al₂ O₃). Sample A was pressed using a dry milled grade as received from the manufacturer (-325 mesh). The remaining samples employed the same material with additional ball milling using water as the vehicle. Microscopic examinations of particles showed a definite reduction in size with hours of milling. The -325 mesh material, 48 hour milled material and the mixtures of various particle sizes, show the best results. The 24 hour and the 96 hour ball milled materials show definitely inferior hardness results. The same results have been achieved with the 24 hour and 96 hour materials in several other tests so it can again only be assumed that a difference in pore structure exists in the bodies pressed from this material.

Indications as a result of a great many samples are that maximum hardness and density with a given oxide material is achieved only with particle sizes and shapes that provide the most uniform interstitial structure. In such cases, there can be a very complete impregnation resulting in the most dense and hardest structure possible with the materials involved. The uniform interstitial requirement would also explain the reason that lightly pressed samples can sometimes be chemically treated to a greater degree of hardness that those formed under extremely high pressure. In the latter case, trapped pores, or at least spaces with smaller passages leading to them, may occur, resulting in less than maximum hardness.

Referring to the drawing, FIG. 8 shows a metallographic photograph with a magnification of 200X of a body of pressed powdered chromium oxide as the refractory base material which has been hardened by chromic acid treatments. The material of FIG. 8 appears as sample No. 116 in Table LXX. FIG. 7 is also a metallographic photo at 200X of a pressed body where the base material is beryllium oxide. FIG. 7 appears as sample No. 98 in Table LXX.

                                      TABLE LXXIV                                  __________________________________________________________________________     HARDNESS VARIATIONS AS A RESULT OF USING                                       HIGH PURITY ALUMINA (99.98% Al.sub.2 O.sub.3) OF DIFFERENT PARTICLES           __________________________________________________________________________     SIZES                                                                                                         15-N Rockwell Hardness vs No.                                                  Impregnations                                   Sample                                                                             Base Oxide Material                                                                             Forming Pressure                                                                         3x  5x  7x  9x  11x 13x                         __________________________________________________________________________     124 Al.sub.2 O.sub.3, 99.98% Meller, 0.06 μ                                                      Hand Tamped                                                                              66.8                                                                               78.4                                                                               84.0                                                                               92.5                                                                               95.0                                                                               93.5                        123 Al.sub.2 O.sub.3, 99.98% Meller, 0.06 μ                                                      Hand Tamped                                                                              75.2                                                                               --  91.9                                                                               92.6                                                                               93.9                                                                               94.1                        122 Al.sub.2 O.sub.3, 99.98% Meller, 0.06 μ                                                      Hand Tamped                                                                              76.4                                                                               --  92.1                                                                               93.6                                                                               94.7                                                                               95.8                        125 Al.sub.2 O.sub.3, 99.98% Meller, 0.06 μ                                                      Hand Tamped                                                                              76.5                                                                               87.6                                                                               88.9                                                                               88.9                                                                               91.6                                                                               91.2                        126 Al.sub.2 O.sub.3, 99.98% Meller, 0.06 μ                                                      Hand Tamped                                                                              74.0                                                                               --  91.4                                                                               92.4                                                                               93.7                                                                               95.3                        __________________________________________________________________________

                                      TABLE LXXV                                   __________________________________________________________________________     HARDNESS VARIATIONS IN ALCOA TABULAR ALUMINA                                   DRY GROUND OR WET MILLED TO OBTAIN DIFFERENT PARTICLE SIZE AND                 __________________________________________________________________________     RANGES                                                                                                              15-N Rockwell Hardness vs No.                                                  Impregnations                             Sample                                                                             Base Oxide Material     Forming Pressure                                                                        3x  5x  7x  9x   11x 13x                  __________________________________________________________________________     A   Al.sub.2 O.sub.3 -tabular, Alcoa T-61(-325 mesh)                                                       20,000 psi                                                                              N.M.                                                                               N.M.                                                                               92.8                                                                               93.1 94.8                                                                               94.3                 29  Al.sub.2 O.sub.3 -tabular, T-61(-325 mesh), ball milled 24                                             20,000 psi                                                                              81.8                                                                               88.8                                                                               90.7                                                                               91.6 92.8                                                                               92.9                 30  Al.sub.2 O.sub.3 -tabular, T-61(-325 mesh), ball milled 48                                             20,000 psi                                                                              82.4                                                                               90.6                                                                               92.0                                                                               94.0 95.0                                                                               94.3                 31  Al.sub.2 O.sub.3 -tabular, T-61(-325 mesh), ball milled 96                                             20,000 psi                                                                              82.1                                                                               87.1                                                                               91.7                                                                               91.6 90.4                                                                               92.7                 32  Al.sub.2 O.sub.3 -tabular, T-61(-325 mesh), ball milled                                                20,000 psi                                                                              83.9                                                                               90.3                                                                               92.1                                                                               91.7 93.1                                                                               93.2                     24 hrs. (1 part), 48 hrs. (1 part), 96 hrs. (1 part)                       33  Al.sub.2 O.sub.3 -tabular, T-61(-325 mesh), -325 mesh (1                                               20,000 psi                                                                              81.6                                                                               90.0                                                                               91.9                                                                               93.4 94.2                                                                               93.7                     96 hrs. (1 part), 24 hrs. (1 part), 48 hrs. (1 part)                       __________________________________________________________________________

Samples were prepared and tested to determine the effect on hardness due to using various available forms of alumina and chromia as the base oxide material for pressed samples. Among the forms of alumina investigated were alpha, beta and gamma types and including hydrated, calcined, tabular and fused varieties of one or more of these types. The chromia (Cr₂ O₃) is available in a much narrower selection of forms. However, a comparison of standard finely divided, chemically produced chromia with that of fused ball milled chromia has been made.

Table LXXVI gives hardness comparisons for pressed samples made from several commercially available Alcoa aluminas. These include tabular, calcined and hydrated forms. As might be expected, the hydrated forms do not achieve maximum hardness, at least as rapidly as do the tabular and calcined types. Since the particular hydrated aluminas tested (Type C-37 and C-331) are approximately 65% Al₂ O₃ in their pre-heated condition, it is to be understood that more chemical treatment-cure cycles would be required to reach maximum hardness than would be the case with the tabular and calcined varieties.

The hydrated aluminas take the form of white granular crystals with the formula Al₂ O₃ . 3H₂ O (or sometimes written Al(OH)₃). Type C-37 is a beta crystal form with a +325 mesh size (325 mesh ≈35 micron particle size), while C-331 is much finer than 325 mesh, having an average particle size of only 6.5 to 8.5 microns.

The tabular and calcined aluminas listed in Table LXXVI are all -325 mesh and are 99+% Al₂ O₃. These are aluminas of the alpha type. The tabular alumina is ground from tablet-like crystals (well developed alpha alumina) that has been converted to the corundum form by heating to a temperature slightly below the fusion point (3700° F.) of aluminum oxide. The calcined aluminas are here considered to be of a less well developed alpha form.

There is very little difference in hardness of samples produced with the tabular as compared with the calcined aluminas. Since it was expected that the hydrated alumina (especially sample 152) would approach comparable hardness with additional chemical hardening treatments, samples 151 and 152 were given additional impregnations. After 17 impregnation-cure cycles, No. 152 achieved a hardness of 15-N-93.2 on the Rockwell scale. Sample No. 151 did not do as well, reaching only 15-N-90.6 after 17 cycles. This sample (151) is composed of large size particles, being predominently greater than 35 μ in dimension, which probably accounts for the very slow rate at which hardness of this sample is increasing.

Table LXXVII shows hardness results obtained by means of the chemical hardening process of the invention using a variety of additional aluminum oxide forms. These include crushed and/or ball milled fused alumina abrasives of 90 to 99% purity in addition to one test (No. 167) pressed from a -325 mesh fused bauxite material containing about 5-8% titanium and other impurities. From the data of Tables LXXVI and LXXVII, it would appear that maximum hardness of alumina material is not as dependent on form or purity as it is on particle size and uniformity of porosity. It must be pointed out, however, that the major impurity of most of the materials listed, especially those of Table LXXVII, are iron oxide and titania, which as seen earlier also provides an extremely hard body when used by themselves with the chromic acid treatment.

Table LXXVIII shows comparison of three chromia samples. Number 116 is pressed from the standard 99% chemically produced chromia of finely divided crystalline form. Sample 205 is the same material after ball milling wet for 40 hours. These two samples show only slight differences in hardness. The third test, sample 220, however, shows significantly lower hardness. This material was prepared by ball milling plasma sprayed chromium oxide coatings built up to a heavy layer on a subsequently discarded metal substrate. While the purity of sample 220 is nominally about 90% (with a high percentage of silica for the impurity), this material was quite difficult to ball mill with a noticeable percentage of large size particles being included along with the greater percentage of very fine particles. Again, therefore, reduced hardness of this particular sample is believed to be due primarily to an unfortunate interstitial structure of irregular porosity, rather than purity or the fact that it is a re-ground fused material.

Again referring to the drawings, FIG. 5 shows a metallographic photograph with a magnification of 200× where the base material is a pressed Alcoa T-61 (-325 mesh) alumina ball milled for 48 hours and hardened by chromic acid treatments. FIG. 5 appears as sample No. 31 in Table LXXV. FIG. 6 is also a pressed body of Alcoa T-61 (-325 mesh) alumina like that of FIG. 5, but having been ball milled for 96 hours before chromic acid hardening treatments. A finer particle size is noticeable. FIG. 6 appears as sample No. 31 in Table LXXV.

                                      TABLE LXXVI                                  __________________________________________________________________________     HARDNESS RESULTS OBTAINED WITH A VARIETY OF                                    COMMERCIALLY AVAILABLE FORMS OF ALUMINA AFTER CHEMICAL HARDENING               __________________________________________________________________________                                          15-N Rockwell Hardness vs No.                                                  Impregnations                             Sample                                                                             Base Oxide Material    Forming Pressure                                                                         3x  5x  7x  9x   11x                      __________________________________________________________________________                                                               13x                  119 Al.sub.2 O.sub.3, tabular, Alcoa T-61 (-325 mesh)                                                     Hand Tamped                                                                              80.6                                                                               91.3                                                                               92.1                                                                               92.6 94.3                                                                               94.0                 155 Al.sub.2 O.sub.3, calcined, Alcoa A-3 (-325 mesh)                                                     Hand Tamped                                                                              71.9                                                                               86.4                                                                               89.1                                                                               92.1 92.7                                                                               93.9                 154 Al.sub.2 O.sub.3, calcined, Alcoa A-5 (-325 mesh)                                                     Hand Tamped                                                                              --  79.2                                                                               89.1                                                                               94.1 94.8                                                                               94.6                 153 Al.sub.2 O.sub.3, calcined, Alcoa A-14 (-325 mesh)                                                    Hand Tamped                                                                              73.4                                                                               88.9                                                                               93.0                                                                               93.3 93.4                                                                               93.7                 151 Al.sub.2 O.sub.3, hydrated, Alcoa C-37                                                                Hand Tamped                                                                              41.9                                                                               65.9                                                                               80.4                                                                               82.2 87.4                                                                               88.6                 152 Al.sub.2 O.sub.3, hydrated, Alcoa C-331                                                               Hand Tamped                                                                              --  --  81.3                                                                               85.8 90.3                                                                               92.2                 __________________________________________________________________________

                                      TABLE LXXVII                                 __________________________________________________________________________     HARDNESS RESULTS OBTAINED BY CHEMICALLY TREATING A NUMBER OF                   COMMERCIALLY AVAILABLE, FUSED ALUMINA MATERIALS                                __________________________________________________________________________                                            15-N Rockwell Hardness vs No.                                                  Impregnations                           Sample                                                                             Base Oxide Material      Forming Pressure                                                                         3x  5x  7x  9x  11x 13x                 __________________________________________________________________________     45  Al.sub.2 O.sub.3, fused 1700 grit abrasive                                                              20,000 psi                                                                               65.3                                                                               83.0                                                                               86.4                                                                               87.6                                                                               86.8                                                                               89.6                50  Al.sub.2 O.sub.3, fused 1700 grit, ball milled 96 hours                                                 20,000 psi                                                                               78.1                                                                               87.4                                                                               87.3                                                                               89.2                                                                               88.9                                                                               90.2                60  Al.sub.2 O.sub.3, fused 36 grit semi-friable, ball milled 48                                            20,000 psi                                                                               76.1                                                                               87.0                                                                               88.8                                                                               90.3                                                                               90.4                                                                               92.0                206 Al.sub.2 O.sub.3, fused 240 grit friable (99%),                                ball milled 40 hours     Hand Tamped                                                                              74.5                                                                               89.0                                                                               93.3                                                                               94.1                                                                               93.9                                                                               93.4                167 Fused Bauxite, DSF abrasive, -325 mesh                                                                  Hand Tamped                                                                              --  87.2                                                                               92.6                                                                               93.4                                                                               --  93.8                __________________________________________________________________________

                                      TABLE LXXVIII                                __________________________________________________________________________     HARDNESS RESULTS OBTAINED BY CHEMICALLY HARDENING STANDARD AND                 BALL MILLED CHROMIA AND BALL MILLED, FUSED CHROMIA PRESSED                     __________________________________________________________________________     SAMPLES                                                                                                        15-N Rockwell Hardness vs No.                                                  Impregnations                                  Sample                                                                             Base Oxide Material                                                                              Forming Pressure                                                                         3x  5x  7x  9x  11x 13x                        __________________________________________________________________________     220 Fused Cr.sub.2 O.sub.3, ball milled 48 hours                                                     Hand Tamped                                                                              85.8                                                                               91.7                                                                               92.3                                                                               92.6                                                                               93.3                                                                               93.6                       116 Cr.sub.2 O.sub.3, 99% (chemically reduced)                                                       hand Tamped                                                                              84.5                                                                               88.1                                                                               94.3                                                                               96.2                                                                               96.0                                                                               96.6                       205 Cr.sub.2 O.sub.3, 99%, ball milled 40 hours                                                      Hand Tamped                                                                              75.8                                                                               89.4                                                                               93.8                                                                               95.7                                                                               95.9                                                                               96.0                       __________________________________________________________________________

Powdered oxide forming pressure variations and their effect on hardness have been investigated to a limited extent.

Table LXXIX shows variations in die pressure for alumina samples made from a 99.5% Al₁₂ O₃ ball milled material. Treatment and curing were identical to that of previous chromic acid processing. Maximum cure temperature was 1200° F. Samples were approximately 1/2 inch diameter and about 1/10 inch thickness. Pressure was applied to the 1/2 inch diameter areas by means of a hydraulic press. The sample was contained within a ring mold which was removed after reaching about 1200° F. during the initial cure cycle.

Table LXXX shows data of the same type, but made using chromia (99.9%) instead of alumina or the base oxide material.

The data presented in Tables LXXIX and LXXX show very little significant variation in hardness with die pressure within the ranges tested. It has been found that too little pressure will sometimes result in a part with voids and "soft spots." It is also suspected (based partly on inconclusive tests) that too high a forming pressure could close up vital passages and result in less than optimum hardness.

                                      TABLE LXXIX                                  __________________________________________________________________________     HARDNESS VARIATIONS FOR CHEMICALLY TREATED PRESSED ALUMINA SAMPLES             USING DIFFERENT FORMING PRESSURES                                              __________________________________________________________________________                                         15-N Rockwell Hardness vs No.                                                  Impregnations                              Sample                                                                             Base Oxide Material   Forming Pressure                                                                         3x 5x  7x  9x  11x 13x                     __________________________________________________________________________     R   Al.sub.2 O.sub.3, Coors AHP-99, Ball Milled 48 hrs.                                                   5,000 psi                                                                               -- 85.8                                                                               88.4                                                                               91.7                                                                               92.5                                                                               92.9                    P   Al.sub.2 O.sub.3, Coors AHP-99, Ball Milled 48 hrs.                                                  10,000 psi                                                                               -- 84.7                                                                               90.7                                                                               91.9                                                                               91.6                                                                               90.8                    O   Al.sub.2 O.sub.3, Coors AHP-99, Ball Milled 48 hrs.                                                  20,000 psi                                                                               -- --  88.1                                                                               91.3                                                                               93.5                                                                               93.4                    B   Al.sub.2 O.sub.3, Coors AHP-99, Ball Milled 48 hrs.                                                  40,000 psi                                                                               -- 88.9                                                                               90.9                                                                               93.5                                                                               94.7                                                                               93.8                    __________________________________________________________________________

                                      TABLE LXXX                                   __________________________________________________________________________     HARDNESS VARIATIONS FOR CHEMICALLY TREATED PRESSED CHROMIA SAMPLES             USING DIFFERENT FORMING PRESSURES                                              __________________________________________________________________________                                       15-N Rockwell Hardness vs No.                                                  Impregnations                                Sample                                                                             Base Oxide Material Forming Pressure                                                                         3x 5x  7x  9x  11x 13x                       __________________________________________________________________________     T   Cr.sub.2 O.sub.3, 99% (very fine powdered form)                                                     5,000 psi                                                                               -- 84.6                                                                               91.6                                                                               93.8                                                                               95.2                                                                               96.2                      U   Cr.sub.2 O.sub.3, 99% (very fine powdered form)                                                    10,000 psi                                                                               -- 90.3                                                                               94.2                                                                               96.1                                                                               96.4                                                                               96.9                      I   Cr.sub.2 O.sub.3, 99% (very fine powdered form)                                                    20,000 psi                                                                               -- 88.3                                                                               92.3                                                                               95.7                                                                               94.2                                                                               97.0                      S   Cr.sub.2 O.sub.3, 99% (very fine powdered form)                                                    40,000 psi                                                                               -- 79.6                                                                               93.7                                                                               94.3                                                                               96.7                                                                               95.3                      __________________________________________________________________________

Various schemes of type and amount of moistening agent used have been investigated and their effect on product hardness and density determined. These variations, at least as applied to pressed oxide samples, have been fairly minor in effect.

For example, using concentrated chromic acid as the refractory oxide powder moistening agent in pressed samples, little difference in final sample hardness was found whether a very little acid or a great excess was used. Three such samples are shown in Table LXXXI. When too much acid was used, the excess was simply forced out of the mold when pressure was applied. When very little (or a diluted chromic acid solution) was used as the moistening agent, a minor degradation in hardness is sometimes noted in the first two or three impregnation-cure cycles.

Other tests were performed in which the powder was pressed dry, with water or polyethylene glycol as the moistening agent. In this case, the pressed oxide was left in the mold, dried out and chromic acid applied and converted to the Cr₂ O₃ form before removing the sample from the mold. Aside from the inconvenience of requiring the initial chemical treatment in the mold before the sample could be removed and handled without falling apart, little difference in ultimate hardness was found.

                                      TABLE LXXXI                                  __________________________________________________________________________     HARDNESS MEASUREMENTS FOR CHEMICALLY TREATED PRESSED ALUMINA SAMPLES           USING VARYING AMOUNTS OF CHROMIC ACID AS THE OXIDE MOISTENING AGENT                                      Condition                                                                             Forming                                                                              15-N-Rockwell Hardness vs No.                                                  Impregnations                           Sample                                                                             Base Oxide Material   of Mix Pressure                                                                             3x  5x  7x  9x  11x 13x                 __________________________________________________________________________     JJ  Al.sub.2 O.sub.3 (94%) Coors AP-94, Ball Milled 52 hrs.                                              slightly damp                                                                         10,000 psi                                                                           83.9                                                                               88.5                                                                               92.3                                                                               92.1                                                                               93.1                                                                               --                  KK  Al.sub.2 O.sub.3 (94%) Coors AP-94, Ball Milled 52 hrs.                                              damp   10,000 psi                                                                           81.8                                                                               89.2                                                                               91.5                                                                               90.9                                                                               91.9                                                                               --                  LL  Al.sub.2 O.sub.3 (94%) Coors AP-94, Ball Milled 52 hrs.                                              wet    10,000 psi                                                                           83.1                                                                               89.4                                                                               93.0                                                                               93.1                                                                               93.1                                                                               --                  __________________________________________________________________________

Tests were made with identically prepared pressed oxide samples with the only variation being the curing temperature. The chromic oxide treatment was employed except that the maximum cure temperatures for individual sample runs were selected as 900°, 1200° F., and 1500° F. These temperatures were selected because definite color changes are seen to occur in these ranges, changing from a darker blue-green with 850° to 1000° F. cure temperature to a medium green at 1200° F. and a somewhat lighter green at 1400° to 1500° F. It is expected that the color variation is due to an incomplete decomposition of the CrO₃ at the lower temperatures and that some of the intermediate chromium oxides such as CrO₂, Cr₆ O₁₅, Cr₄ O₉, etc., may be present. No significant difference in hardness of the samples cured at the different temperatures was found.

During the heating of chromic acid impregnated samples, and especially in the 400° to 700° F. temperature range, there tends to be an evolvement of reddish fumes from the sample. The fumes become quite noticeable when heated to the above temperatures should the oven door be opened admitting a fresh supply of air. In the 400° to 700° F. temperature range, the chromic acid has most certainly been converted to the chromium trioxide form, the water having been driven off by this time. Because of this noticeable decomposition in the presence of air, the hardening or conversion process was carried out in an inert atmosphere and the results compared with the normal oven curing method in which at least a partial oxygen environment exists. Another test consisted of forcing air through the oven during the curing cycles.

None of these tests showed any significant difference in amount of weight increase in the sample, even after several impregnation-cure cycles. Hardness differences likewise could not be detected.

This section describes hardness results obtained with pressed bodies formed of so-called impure refractory materials such as kaolin, clays and the like, or high purity oxides to which such impurities have been added.

Table LXXXIII shows hardness results of a variety of commercially available kaolin clays. The kaolins tested were all products of the Georgia Kaolin Company and represent both hydrated and calcined types of a variety of mean particle sizes. Table LXXXIV gives particle size data for these various grades. Kaolin materials are aluminum silicate clays and generally take the form of small plate-like crystals. The alumina content may range from about 40 to 50%, depending on the grade and type involved. Table LXXXIII shows a wide variety of hardness values depending on the type used. As might be expected, the calcined kaolins provide the highest hardness values. Two of these, Glomax-JD and Glomax-LL (samples 211 to 213), are seen to achieve a Rockwell hardness in excess of 15-N-94. This is comparable with the maximum hardness for several of the high purity (99+%) aluminum oxides previously described.

Table LXXXV shows similar hardness tables for other impure materials, including feldspar, fused and non-fused bauxite, Kentucky ball clay, bentonite and other clays. While hardness values of these materials are not as great as for some of the kaolins or many of the purer oxides described earlier, some of them are at least comparable with commercially available ceramic materials formed by high temperature sintering processes. The 100 mesh feldspar and bauxite might have shown better hardness values if they had been milled to a much finer particle size and dehydrated before attempting to chemically harden.

The data presented in Table LXXXVI is of a test series showing hardness achieved by adding 25% or less, by volume, amounts of kaolin, or iron oxide of the Fe₃ O₄ form to a >99+% base oxide material. It will be noted that these additions (≈10% to 20% by weight) do not necessarily degrade the hardness over that obtained with the pure oxide. For example, comparing the 99% alumina sample No. 206 with the impure sample No. 223 or the 99% chromia sample No. 116 with sample No. 225 and No. 219, the Fe₃ O₄ or calcined kaolin additives result at best in only minor hardness degradation in these particular percentage combinations. Again, as expected, the particle size distribution and resulting interstitial structure of the pressed body appears to be playing a large role in ultimate hardness obtained.

                                      TABLE LXXXIII                                __________________________________________________________________________     HARDNESS MEASUREMENTS OBTAINED BY MULTIPLE CHEMICAL TREATMENTS                 USING VARIOUS GRADES AND TYPES OF KAOLIN AS THE PRESSED OXIDE                                                         15-N Rockwell Hardness vs No.                                                  Impregnations                           Sample Base Oxide Material  Forming Pressure                                                                          3x  5x  7x  9x  11x 13x                 __________________________________________________________________________     207  Kaolin, Pioneer Air Floated (hydrated)                                                                Hand Tamped                                                                               68.3                                                                               84.4                                                                               88.7                                                                               90.5                                                                               90.0                                                                               89.3                208  Kaolin, Ajax P (hydrated)                                                                             Hand Tamped                                                                               69.7                                                                               84.0                                                                               89.3                                                                               90.1                                                                               90.2                                                                               90.1                209  Kaolin, Ajax 70 (hydrated)                                                                            Hand Tamped                                                                               69.7                                                                               84.7                                                                               89.1                                                                               90.3                                                                               89.9                                                                               90.3                210  Kaolin, Ajax SC (calcined)                                                                            Hand Tamped                                                                               --  70.5                                                                               87.1                                                                               91.0                                                                               91.8                                                                               92.4                211  Kaolin, Glomax JD (calcined)                                                                          Hand Tamped                                                                               --  82.6                                                                               90.6                                                                               92.8                                                                               94.2                                                                               94.1                212  Kaolin, Glomax HE (calcined)                                                                          Hand Tamped                                                                               --  --  78.6                                                                               88.4                                                                               91.7                                                                               93.0                213  Kaolin, Glomax LL (calcined)                                                                          Hand Tamped                                                                               66.8                                                                               --  90.4                                                                               92.3                                                                               93.5                                                                               94.3                214  Kaolin, Glomax PVR (calcined)                                                                         Hand Tamped                                                                               68.8                                                                               84.6                                                                               88.5                                                                               90.4                                                                               91.4                                                                               90.9                215  Kaolin, Velvacast (hydrated)                                                                          Hand Tamped                                                                               79.5                                                                               86.0                                                                               88.5                                                                               89.7                                                                               90.0                                                                               89.4                __________________________________________________________________________

                  TABLE LXXXIV                                                     ______________________________________                                         PARTICLE SIZE VARIATIONS FOR HYDRATED AND CALCINED KAOLINS                     MANUFACTURED BY THE GEORGIA KAOLIN COMPANY                                     1. HYDRATED KAOLINS                                                            Type Designation                                                                             Mean Particle Size                                                                            % <2 Microns                                      ______________________________________                                         Ajax P        0.45 - 0.50 μ                                                                              92 - 94%                                          Ajax 70       0.75 - 0.80 μ                                                                              70 - 74%                                          Velvacast     3.5 - 4.5 μ 30 - 35%                                          Pioneer Air Floated                                                                          0.8 - 1.0 μ 55 - 65%                                          2. CALCINED KAOLINS                                                            Ajax S        5.0 - 6.4 μ 14 - 20%                                          Glomax JD     0.9 μ       ˜ 89%                                       Glomax HE     1.2 μ       ˜ 80%                                       Glomax LL     1.8 μ       ˜ 52%                                       Glomax PVR    4.8 μ       ˜ 22%                                       ______________________________________                                    

                                      TABLE LXXXV                                  __________________________________________________________________________     HARDNESS MEASUREMENTS OBTAINED AFTER MULTIPLE CHEMICAL TREATMENTS              USING A VARIETY OF CLAYS AND GROUND ORES AS THE PRESSED BASE MATERIALS                                                15-N Rockwell Hardness vs No.                                                  Impregnations                           Sample Base Oxide Material Forming Pressure                                                                           3x  5x  7x  9x  11x 13x                 __________________________________________________________________________      4   Feldspar, -100 mesh   20,000 psi  65.6                                                                               88.6                                                                               80.1                                                                               --  87.2                                                                               87.8                36   Bauxite, -100 mesh    20,000 psi  --  46.5                                                                               73.6                                                                               80.2                                                                               84.1                                                                               77.9                35   King Island (Alaska) Clay                                                                            20,000 psi  --  64.0                                                                               72.3                                                                               76.1                                                                               84.3                                                                               87.1                69   Amaco type X-11 Grey Clay                                                                            20,000 psi  48.4                                                                               51.9                                                                               57.0                                                                               73.1                                                                               75.2                                                                               74.5                77   Kentucky Ball Clay    20,000 psi  61.2                                                                               72.8                                                                               76.2                                                                               89.3                                                                               91.3                                                                               91.8                96   Bentonite Clay        20,000 psi  N.M.                                                                               N.M.                                                                               N.M.                                                                               N.M.                                                                               N.M.                                                                               N.M.                 142 Fused Bauxite, DSF abrasive, -325 mesh                                                               Hand Tamped 70.3                                                                               85.3                                                                               90.0                                                                               89.4                                                                               89.1                                                                               92.4                __________________________________________________________________________

                                      TABLE LXXXVI                                 __________________________________________________________________________     HARDNESS MEASUREMENTS OF PRESSED SAMPLES AS A RESULT OF                        MULTIPLE CHEMICAL TREATMENTS FOR RELATIVELY PURE OXIDES WITH                   KAOLIN ADDED AS THE IMPURITY                                                   __________________________________________________________________________                                  Parts          15-N Rockwell Hardness vs                                                      No.                                                       Ball  by             Impregnations                      Sample   Base Oxide Material                                                                          Milled                                                                               Volume                                                                              Forming Pressure                                                                         3x 5x 7x 9x 11x                                                                               13x                 __________________________________________________________________________     226 Cr.sub.2 O.sub.3                                                                    Kaolin, Ajax P                                                                               --    4:1  Hand Tamped                                                                              -- 85.9                                                                              90.5                                                                              91.6                                                                              92.4                                                                              94.0                225 Cr.sub.2 O.sub.3                                                                    Fe.sub.3 O.sub.4                                                                             --    4:1  Hand Tamped                                                                              -- 89.5                                                                              94.0                                                                              94.4                                                                              95.7                                                                              96.2                224 Kaolin,                                                                             Al.sub.2 O.sub.3, 240 grit Friable                                        Ajax P                                                                              Abrasive (99%)                                                                               40 hrs.                                                                              1:4  Hand Tamped                                                                              -- 86.9                                                                              89.9                                                                              90.9                                                                              93.0                                                                              91.5                223 Fe.sub.3 O.sub.4                                                                    Al.sub.2 O.sub.3, 240 grit Friable                                             Abrasive (99%)                                                                               40 hrs.                                                                              1:4  Hand Tamped                                                                              -- 89.2                                                                              92.3                                                                              92.8                                                                              93.1                                                                              93.5                219 Cr.sub.2 O.sub.3                                                                    Kaolin, Glomax HE                                                                            --    4:1  Hand Tamped                                                                              82.0                                                                              89.1                                                                              93.0                                                                              95.5                                                                              96.4                                                                              96.2                217 Cr.sub.2 O.sub.3                                                                    Kaolin, Ajax 70                                                                              --    6:1  Hand Tamped                                                                              85.5                                                                              91.4                                                                              94.1                                                                              95.0                                                                              95.3                                                                              94.7                216 Cr.sub.2 O.sub.3                                                                    Kaolin, Ajax 70                                                                              --    4:1  Hand Tamped                                                                              81.6                                                                              89.2                                                                              91.7                                                                              95.0                                                                              94.5                                                                              94.6                206 --   Al.sub.2 O.sub.3, 240 grit Friable                                             Abrasive      40 hrs.                                                                              0:1  Hand Tamped                                                                              74.5                                                                              89.0                                                                              93.3                                                                              94.1                                                                              93.9                                                                              93.4                116 Cr.sub.2 O.sub.3                                                                    --                  1:0  Hand Tamped                                                                              84.5                                                                              88.1                                                                              94.3                                                                              96.2                                                                              96.0                                                                              96.6                __________________________________________________________________________

The process of this invention also encompasses composites made with a base refractory oxide material such as alumina or chromia to which has been added powdered metals, metal fibers, ceramic fibers, glass fibers, glass or metal cloth, high strength whiskers and the like.

The chemical hardening method is particularly interesting for use in the fabrication of these composite materials. First, the low temperature (600° to 1500° F.) hardening requirement allows the use of many additives and reinforcing materials that could not be employed with ceramic based composites if the normal high temperature (2500° to 4000° F.) sintering or fusing temperatures are used. Secondly, the instant process appears to make a very strong chemical bond to many of these added materials, including glass and ceramic fibers and many of the metals.

The exceptionally strong bond to metals is believed to be due to a chemical bond to the metal oxide film that forms on the surface. Most of these metal oxides, such as those readily formed on iron, titanium, aluminum and many of the stainless steels are strongly bound to the metal surface. The chromium treatment (normally chromic acid) has, of course, already been shown to make strong bonds to most metal oxides, including those of titanium, iron, nickel and aluminum. Therefore, the metal oxide appears to form the required bridge making a true chemical bond to the metal possible.

A number of these composite material structures hardened by the chemical process of this invention are shown in Table LXXXVII. Some of these combinations are mixtures of widely different physical sizes and shapes of the same material, others are refractory oxides with added glass, metal or ceramic fibers, some are mixtures of refractory oxide and metal powders, and others are ceramic base materials with additives such as boron nitride or graphite used as "built-in" solid lubricants. Many other composites can, of course, be readily visualized using this low temperature bonding technique that should provide new families of materials not heretofore possible with normal high temperature sintering processes. Reference is made to FIG. 9 of the drawings which shows a metallographic photograph at 200 magnification of a pressed body of T-61 (-325 mesh) alumina ball milled 96 hours with alumina fibers added to produce a composite. This body has been hardened by chromic acid treatments according to the invention and appears as sample No. 87 in Table LXXXVII.

                                      TABLE LXXXVII                                __________________________________________________________________________     HARDNESS DATA OBTAINED FOR A                                                   VARIETY OF CHEMICALLY TREATED COMPOSITE MATERIALS                              __________________________________________________________________________     Reinforcing                 Parts         15-N Rockwell Hardness vs No.        or                          by            Impregnations                        Sample                                                                             Added Material                                                                             Base Oxide Material                                                                        Volume                                                                             Forming Pressure                                                                         3x 5x 7x 9x 11x                                                                               13x                   __________________________________________________________________________     185 No. 30 Friable Al.sub.2 O.sub.3                                                            Al.sub.2 O.sub.3 -tabular, -325,                                                           1:1 Hand Tamped                                                                              87.5                                                                              90.4                                                                              90.8                                                                              92.9                                                                              95.1                                                                              94.3                      Abrasive    Ball Milled 48 Hours                                           186 No. 30 Friable Al.sub.2 O.sub.3                                                            Al.sub.2 O.sub.3 -tabular, -325                                                            2:1 Hand Tamped                                                                              87.6                                                                              91.7                                                                              92.3                                                                              93.6                                                                              92.6                                                                              93.6                      Abrasive    Ball Milled 48 Hours                                           187 No. 30 Friable Al.sub.2 O.sub.3                                                            Al.sub.2 O.sub.3 -tabular, -325                                                            3:1 Hand Tamped                                                                              87.5                                                                              89.9                                                                              91.5                                                                              93.0                                                                              93.2                                                                              93.2                      Abrasive    Ball Milled 48 Hours                                           40  Glass Cloth Al.sub.2 O.sub.3 -tabular, -325                                                            --  20,000 psi                                                                               81.5                                                                              87.3                                                                              88.5                                                                              91.8                                                                              88.5                                                                              90.3                                  Ball Milled 24 Hours                                           53  Boron Carbide                                                                              Al.sub.2 O.sub.3 -tabular, -325                                                            1:1 20,000 psi                                                                               40.3                                                                              64.4                                                                              70.0                                                                              70.2                                                                              77.3                         (fine)      Ball Milled 96 Hours                                           50  1700 grit S.F.                                                                             Al.sub.2 O.sub.3 -tabular, -325                                                            2:1 20,000 psi                                                                               78.1                                                                              87.4                                                                              87.3                                                                              89.2                                                                              88.9                                                                              90.2                      Abrasive    Ball Milled 96 Hours                                           70  Graphite    Al.sub.2 O.sub.3 -tabular, -325                                                            1:5 20,000 psi                                                                               64.4                                                                              81.1                                                                              86.4                                                                              89.8                                                                              91.4                                                                              90.7                                  Ball Milled 24 Hours                                           78  Fe (reduced)                                                                               Al.sub.2 O.sub.3 -tabular, -325                                                            1:1 20,000 psi                                                                               81.5                                                                              83.0                                                                              83.1                                                                              83.3                                                                              83.3                                                                              82.4                                  Ball Milled 96 Hours                                           85  Kaolin Fibers                                                                              Al.sub.2 O.sub.3 -tabular, -325                                                            --  20,000 psi                                                                               84.6                                                                              86.2                                                                              85.0                                                                              91.0                                                                              92.6                                                                              93.3                      (chopped)   Ball Milled 96 Hours                                           88  Kaolin Fibers                                                                              Al.sub.2 O.sub.3 -tabular, -325                                                            --  20,000 psi                                                                               78.5                                                                              89.1                                                                              89.0                                                                              89.5                                                                              87.4                                                                              90.8                      (unlubricated)                                                                             Ball Milled 96 Hours                                           87  Alumina Fibers                                                                             Al.sub.2 O.sub.3 -tabular, -325                                                            --  20,000 psi                                                                               86.1                                                                              88.3 90.9                                                                         93.4                                                                              92.2                                                                              94.2                                     Ball Milled 96 Hours                                           95  Kaolin Fibers                                                                              Cr.sub.2 O.sub.3                                                                           --  20,000 psi                                                                               -- 83.7                                                                              -- 91.4                                                                              91.8                                                                              92.6                      (chopped)                                                                  118 Alumina Fibers                                                                             Cr.sub.2 O.sub.3                                                                           --  Hand Tamped                                                                              82.2                                                                              86.4                                                                              90.4                                                                              92.5                                                                              96.3                                                                              94.5                  100 Fe (reduced Al.sub.2 O.sub.3 -tabular, -325                                                            2:1 20,000 psi                                                                               72.5                                                                              78.9                                                                              -- 80.7                                                                              82.4                                                                              81.0                                  Ball Milled 96 Hours                                           101 Fe (reduced)                                                                               Al.sub.2 O.sub.3 -tabular, -325                                                            1:2 20,000 psi                                                                               84.3                                                                              87.2                                                                              -- 88.3                                                                              88.3                                                                              88.6                                  Ball Milled 96 Hours                                           102 Fe (reduced)                                                                               Al.sub.2 O.sub.3 -tabular, -325                                                            1:3 20,000 psi                                                                               84.2                                                                              88.3                                                                              -- 90.0                                                                              91.1                                                                              91.3                                  Ball Milled 96 Hours                                           130 Alumina Fibers                                                                             TiO.sub.2   --  Hand Tamped                                                                              79.8                                                                              -- 89.0                                                                              91.6                                                                              92.1                                                                              92.4                  132 Alumina Fibers                                                                             BeO         --  Hand Tamped                                                                              83.7                                                                              88.3                                                                              91.3                                                                              92.5                                                                              93.7                                                                              94.9                  135 Kaolin Fibers                                                                              Kaolin      --  Hand Tamped                                                                              49.3                                                                              61.4                                                                              66.5                                                                              78.5                                                                              86.0                                                                              87.6                      (chopped)                                                                  194 Boron Nitride                                                                              Al.sub.2 O.sub.3 -tabular, -325                                                            1:1 Hand Tamped                                                                              73.5                                                                              73.8                                                                              74.1                                                                              -- 79.0                                                                              82.8                                  Ball Milled 96 Hours                                           195 Boron Nitride                                                                              Al.sub.2 O.sub.3 -tabular, -325                                                            1:4 Hand Tamped                                                                              84.7                                                                              89.0                                                                              92.9                                                                              93.1                                                                              93.4                                                                              95.0                                  Ball Milled 96 Hours                                           198 Boron (amorphous)                                                                          Al.sub.2 O.sub.3 -tabular, -325                                                            1:3 Hand Tamped                                                                              86.1                                                                              86.4                                                                              84.5                                                                              87.6                                                                              88.3                                                                              88.6                                  Ball Milled 48 Hours                                           199 CaF.sub.2   Al.sub.2 O.sub.3 -tabular, -325                                                            1:3 Hand Tamped                                                                              59.9                                                                              72.9                                                                              85.7                                                                              87.9                                                                              86.1                                                                              86.4                                  Ball Milled 48 Hours                                           200 Mica (powdered)                                                                            Al.sub.2 O.sub.3 -tabular, -325                                                            1:3 Hand Tamped                                                                              89.0                                                                              90.1                                                                              91.3                                                                              91.9                                                                              92.2                                                                              92.8                                  Ball Milled 48 Hours                                           227 000 Steel Wool                                                                             Al.sub.2 O.sub.3 -tabular, -325                                                            --  Hand Tamped                                                                              -- 90.3                                                                              99.2                                                                              91.9                                                                              93.5                                                                              92.2                                  Ball Milled 96 Hours                                           232 Stainless Steel                                                                            Al.sub.2 O.sub.3 -tabular, -325                                                            --  Hand Tamped                                                                              -- -- -- -- -- --                        Screen      Ball Milled 96 Hours                                           __________________________________________________________________________

As previously mentioned, it has been found that a strong chemical type bond can be made to many metals, glass, ceramics and related materials. Table LXXXVIII shows hardness results for a series of pressed metal powder samples. When pressing these metal powders, the forming pressure is extremely important since the pressure will have a decided effect on the pore structure. This is especially true with ductile metals such as copper or aluminum where excessive pressure will tend to eliminate the interconnected porous structure altogether. While the hardness achieved is not as great as with most ceramic bodies, it has been found to be higher than values for the same metal in its normal solid form, evidence that a well bonded composite has been formed between the metal particles during the chromic acid-chromic oxide conversion process. Table LXXXIX lists for comparison purposes the 15-N Rockwell hardness values for most of the metals used in the composites of Table LXXXVIII.

Table XC shows a number of miscellaneous materials such as ground glass, glass and ceramic fibers, boron carbide, silicon carbide, etc. treated with the process of this invention and the resulting hardness measurements.

Impregnation-cure cycles for samples listed in Tables LXXXVIII and XC were as previously set out. Maximum cure temperature was 1200° F. except for powdered aluminum sample of Table LXXXVIII which was reduced to 1000° F.

                                      TABLE LXXXVIII                               __________________________________________________________________________     HARDNESS VALUES AS A FUNCTION OF NUMBER OF CHEMICAL TREATMENT                  FOR VARIOUS PRESSED METAL POWDERS                                              __________________________________________________________________________                                       15-N Rockwell Hardness vs No.                                                  Impregnations                                Sample                                                                             Base Oxide Material Forming Pressure                                                                         3x   5x  7x  9x  11x 13x                     __________________________________________________________________________     38  Mo, powdered (fine) 20,000 psi                                                                               76.7 74.1                                                                               73.7                                                                               74.2                                                                               79.0                                                                               79.0                    46  Cr, powdered (coarse)                                                                              20,000 psi                                                                               62.1 71.9                                                                               72.8                                                                               75.2                                                                               74.4                                                                               78.5                    64  Al, powdered (very fine)                                                                           10,000 psi                                                                               Too soft                                                                       N.M. N.M.                                                                               N.M.                                                                               N.M.                                                                               N.M.                                                                               N.M.                    59  Cu, powdered (˜.005" particles)                                                              40,000 psi                                                                               34.5 35.1                                                                               41.1                                                                               --  --  --                      79  Fe, reduced (very fine)                                                                            Hand Tamped                                                                              75.8 78.6                                                                               80.0                                                                               77.8                                                                               --  78.8                    __________________________________________________________________________

                  TABLE LXXXIX                                                     ______________________________________                                         ROCKWELL HARDNESS VALUES FOR SOME COMMON METALS                                ______________________________________                                         Iron (cold rolled steel)   15N-69                                              Titanium, Type A           15N-63                                              303 Stainless Steel        15N-69.6                                            316 Stainless Steel        15N-                                                Aluminum Alloy             15N-43                                              Copper                     15N-24                                              Brass                      15N-43                                              Tempered (Spring) Steel    15N-91                                              ______________________________________                                    

                                      TABLE XC                                     __________________________________________________________________________     HARDNESS VALUES AS A FUNCTION OF NUMBER OF CHEMICAL TREATMENTS                 FOR A VARIETY OF PRESSED POWDERS, FIBERS, ETC.                                 __________________________________________________________________________                                            15-N Rockwell Hardness vs No.                                                  Impregnations                           Sample                                                                             Base Oxide Material      Forming Pressure                                                                         3x  5x  7x  9x  11x 13x                 __________________________________________________________________________     44  Ground Glass             20,000 psi                                                                               45.5                                                                               67.0                                                                               76.1                                                                               80.7                                                                               80.7                                                                               83.7                52  Boron Carbide (fine powder)                                                                             20,000 psi                                                                               40.4                                                                               69.8                                                                               58.8                                                                               72.5                                                                               76.4                                                                               72.5                72  Glass paper (cut in discs and pressed in mold)                                                          20,000 psi                                                                               74.9                                                                               80.5                                                                               80.2                                                                               80.2                                                                               87.8                                                                               79.3                81  Alumina Fibers           20,000 psi                                                                               79.4                                                                               84.4                                                                               89.0                                                                               92.0                                                                               92.6                                                                               92.0                82  Kaolin Fibers (chopped bulk)                                                                            20,000 psi                                                                               75.2                                                                               75.2                                                                               84.4                                                                               87.7                                                                               90.2                                                                               --                  83  Kaolin Fibers (unlubricated)                                                                            20,000 psi                                                                               64.3                                                                               77.9                                                                               85.0                                                                               90.6                                                                               91.0                                                                               90.9                __________________________________________________________________________

Normally, maximum hardness of treated materials may be achieved with either multiple chromic acid or other oxide forming compound plus cure treatments alone or with a number of such treatments followed by a single phosphoric impregnation cure. Using two or more phosphoric acid treatments will not materially increase hardness and often results in cracking of the part if sufficient porosity still exists. Furthermore, it has been found that the phosphoric acid treatment works most efficiently in materials with fairly large pore sizes as contrasted to the chromic acid treatment that provides most rapid hardening in a structure with smaller pores.

The phosphoric acid treatment is interesting, therefore, as a final hardening treatment for pressed oxide bodies to minimize the number of chromic acid treatments required.

Tables XCI, XCII and XCIII provide comparison data between pressed oxide bodies with multiple chromic acid-cure cycles with and without a final phosphoric acid treatment. Hardness measurements have been made for pressed bodies of chromia -325 mesh tabular alumina and additionally ball milled tabular alumina. In each case, samples have been prepared and tested after 3, 5, 7, 9 and 11 chromic acid impregnations. After the hardness measurement was made, the part was impregnated with phosphoric acid and slowly cured to 1200° F. and, after cooling to room temperature and slightly polished, was re-measured to see effect on hardness.

As can be seen in the tables, the phosphoric acid treatment has a marked effect towards increasing hardness of the pre-treated part until the pore size, resulting from the chromic acid cure cycles, becomes too small to accept the phosphoric acid, at least in meaningful amounts.

Table XCI, using a finely divided pressed chromia body, shows that nine chromic acid treatments followed by a single phosphoric acid treatment will provide as hard a sample as will eleven chromic acid treatments and no phosphoric acid treatment. Also, using the phosphoric acid after eleven chromic acid cycles has no additional effect on the hardness.

Table XCII is a relatively coarse alumina body having a much larger pore structure than that of Table XCI. In this case, the advantage of the phosphoric acid in a larger pore structure body can be seen. Here the phosphoric acid treatment applied to a sample pretreated seven times in chromic acid is harder than for one treated eleven times without the final phosphoric acid impregnation and cure. The phosphoric acid treatment after nine cycles appears to be about optimum in hardness since using the phosphoric after eleven times is not as effective.

Table XCIII shows results more typical of a smaller particle size pressed body.

These tables show the important role played by the interstitial structure, or pore size for both the chromic acid and phosphoric acid treatments.

X-ray diffraction analysis of phosphoric acid treated porous refractory oxide samples usually reveals the presence of phosphates of the base material. For example, a porous aluminum oxide body treated with phosphoric acid and suitably cured (600° F. or higher) show the formation of aluminum phosphate (AlPO₄) of the orthorhombic form (ASTM card 11-500). Similarly treated titania samples show the presence of TiP₂ O₇ (ASTM card 3-0300). While phosphoric acid treated porous beryllia bodies showed no catalogued beryllium phosphate, the presence of an unidentifiable X-ray pattern strongly suggests the formation of such a phosphate. In all these cases, the X-ray diffraction patterns also showed the presence of the base oxide material in addition to Cr₂ O₃ if a chromic acid pre-treatment was employed. In no case was a chromium phosphate identified, probably due to the higher reaction temperature of the chromium oxide with the phosphorous oxide than that of the other oxides involved. For X-ray diffraction studies, the samples were ground into fine powders by means of mullite mortars, mixed with DuPont's Household Duco cement and rolled into thin rods, or fibers, between two microscope slides held .013 inch apart in a special jig. When dry, the rods were mounted into 10 cm diameter single crystal rotation General Electric cameras that have been modified for doing powder studies. The patterns were recorded on Ilford Industrial x-ray Film G with nickel filtered copper radiation produced at 40 KV and 221/2 ma. The time of exposure was 11/2 hours with a fine focus tube.

                                      TABLE XCI                                    __________________________________________________________________________     PRESSED CHROMIA SAMPLES SHOWING EFFECT ON HARDNESS                             WITH AND WITHOUT FINAL PHOSPHORIC ACID TREATMENT                               SAMPLES PRESSED FROM VERY FINE (MICRON SIZE)Cr.sub.2 O.sub.3                   __________________________________________________________________________     POWDER                                                                                            H.sub.2 CrO.sub.4                                                                    H.sub.3 PO.sub.4                                      Sample No                                                                             Base Oxide Material                                                                        Treatment                                                                            Treatment                                                                            Forming Pressure                                                                         Rockwell Hardness                                                                         Remarks                    __________________________________________________________________________     X-1    Cr.sub.2 O.sub.3                                                                           3x    None  Hand Tamped                                                                              15N-87.8                              X-1-P  Cr.sub.2 O.sub.3                                                                           3x    1x    Hand Tamped                                                                              15N-93.8                              X-2    Cr.sub.2 O.sub.3                                                                           5x    None  Hand Tamped                                                                              N.M.                                  X-2-P  Cr.sub.2 O.sub.3                                                                           5x    1x    Hand Tamped                                                                              15N-94.7                              X-3    Cr.sub.2 O.sub.3                                                                           7x    None  Hand Tamped                                                                              15N-94.5                              X-3-P  Cr.sub.2 O.sub.3                                                                           7x    1x    Hand Tamped                                                                              15N-95.9                              X-4-   Cr.sub.2 O.sub.3                                                                           9x    None  Hand Tamped                                                                              15N-95.8                              X-4-P  Cr.sub.2 O.sub.3                                                                           9x    1x    Hand Tamped                                                                              15N-97.0                              X-5    Cr.sub.2 O.sub.3                                                                           11x   None  Hand Tamped                                                                              15N-97.1                              X-5-P  Cr.sub.2 O.sub.3                                                                           11x   1x    Hand Tamped                                                                              15N-97.0                              __________________________________________________________________________

                                      TABLE XCII                                   __________________________________________________________________________     PRESSED ALUMINA SAMPLES SHOWING EFFECT ON HARDNESS                             WITH AND WITHOUT FINAL PHOSPHORIC ACID TREATMENT                               SAMPLES PRESSED FROM -325 MESH ALCOA TABULAR ALUMINA                           __________________________________________________________________________                        H.sub.2 CrO.sub.4                                                                    H.sub.3 PO.sub.4                                      Sample No.                                                                            Base Oxide Material                                                                        Treatment                                                                            Treatment                                                                            Forming Pressure                                                                         Rockwell Hardness                                                                        Remarks                     __________________________________________________________________________     X-11   Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          3x    None  Hand Tamped                                                                              15N-70.2                              X-11-P Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          3x    1x    Hand Tamped                                                                              15N-90.7                              X-12   Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          5×                                                                             5x    Hand Tamped                                                                              15N-85.1                              X-12-P Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          5x    1x    Hand Tamped                                                                              15N-91.5                              X-13   Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          7x    None  Hand Tamped                                                                              15N-90.9                              X-13-P Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          7x    1x    Hand Tamped                                                                              15N-94.2                              X-14   Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          9x    None  Hand Tamped                                                                              15N-91.3                              X-14-P Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          9x    1x    Hand Tamped                                                                              15N-95.5                              X-15   Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          11x   None  Hand Tamped                                                                              15N-92.9                              X-15-P Al.sub.2 O.sub.3 (-325 mesh) T-61                                                          11x   1x    Hand Tamped                                                                              15N-93.9                              __________________________________________________________________________

                                      TABLE XCIII                                  __________________________________________________________________________     PRESSED ALUMINA SAMPLES SHOWING EFFECT ON HARDNESS                             WITH AND WITHOUT FINAL PHOSPHORIC ACID TREATMENT                               SAMPLES PRESSED FROM ALCOA TABULAR ALUMINA (-325 MESH)                         BALL MILLED WET FOR 96 HOURS TO REDUCE TO MICRON SIZE PARTICLES                __________________________________________________________________________                        H.sub.2 CrO.sub.4                                                                    H.sub.3 PO.sub.4                                      Sample No.                                                                            Base Oxide Material                                                                        Treatment                                                                            Treatment                                                                            Forming Pressure                                                                         Rockwell Hardness                                                                        Remarks                     __________________________________________________________________________     X-6    Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          3x    None  Hand Tamped                                                                              15N-89.1                              X-6-P  Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          3x    1x    Hand Tamped                                                                              15N-92.8                              X-7    Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          5x    None  Hand Tamped                                                                              N.M.                                  X-7-P  Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          5x    1x    Hand Tamped                                                                              15N-93.2                              X-8    Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          7x    None  Hand Tamped                                                                              15N-92.9                              X-8-P  Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          7x    1x    Hand Tamped                                                                              15N-94.5                              X-9    Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          9x    None  Hand Tamped                                                                              15N-92.8                              X-9-P  Al.sub.2 O.sub. 3 T-61 (-325 mesh)                                                         9x    1x    Hand Tamped                                                                              15N-93.9                              X-10   Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          11x   None  Hand Tamped                                                                              15N-93.8                              X-10-P Al.sub.2 O.sub.3 T-61 (-325 mesh)                                                          11x   1x    Hand Tamped                                                                              15N-94.2                              __________________________________________________________________________

While pressing has been employed for the samples described up to this point, it has been found that other forming methods, such as extruding, slip casting or molding, can also be used with excellent results. In fact, almost any method can be employed that will cause the refractory oxide powder to remain in a relatively closely packed form until the oxide forming compound treatment can be applied and suitably cured.

One suitable method is to simply pack the dry refractory oxide powder into a partially confined container such as a hole drilled part way through a block of metal. Chromic acid can be applied at the exposed surface and, after soaking into the powder, the form can be suitably heated, causing the powder to be bonded together. After one or two such impregnation-cure cycles, the mold can be removed and the part further treated until the desired degree of hardness, consistent with the oxide and pore structure, is achieved.

Another method is to slip cast an oxide-water slurry using a plaster or similar type porous mold. Thin layers of oxide can also be deposited by simply pouring a slurry into a flat container and allowing the water (or other solvent) to evaporate, leaving a relatively dense, closely packed oxide behind. In many such cases, it has been found desirable to add a small percentage of chromic acid, chromium chloride or other such salt to the slurry so that partial bonding of the oxide powder will occur upon initial drying and heating. If this is not done, the initial chromic acid treatment may loosen the dry oxide powder upon immersion. Another method involves the addition of a small percentage of hydrated kaolin to the wet oxide powder. When the oxide-kaolin-water mixture is initially dried and heated to 1000° to 1200° F. (or higher), the kaolin bonds the oxide powder sufficiently to prevent the first concentrated chromic acid impregnation from loosening the packed oxide.

Extruded parts normally will make use of moist refractory oxide(s) with kaolin added. In this case, the kaolin acts as an effective plasticizer to allow easy extrusion from the die in addition to serving as the initial bonding agent to prevent the part from disintegrating in the initial chromic acid impregnation (as described in the preceeding paragraph). Of course, the chromic acid (or chromium salt solution) may be added to the original refractory oxide-kaolin mixture if desired.

Tables XCIV and XCV show hardness test results of still another forming method. This consisted of mixing aluminum oxide or chromium oxide powder with varying percentages of kaolin or bentonite clay. Water was added until a plastic consistency resembling modeling clay was achieved. Samples of this material were formed into a flat disc shaped piece about 1/2 in diameter × 3/8 inch thick using only finger pressure. The parts were subsequently dried in the oven and heated to 1200° F. to set the kaolin-oxide bond. Multiple chromic acid impregnation-cure cycles were given these samples, as noted in Table XCIV. While this forming method is similar to that used for making extruded parts, a much more plastic consistency is employed in the hand forming method, utilizing more water and extremely low forming pressures. These samples undoubtedly have a larger pore structure than those formed of the same materials using higher pressures and less moisture as indicated by their slightly slower hardening rate. Nevertheless, hardness after 15 chromic acid impregnations was found to be about the same as would be expected for 13 cycles using other forming methods with the same oxides. These tables show that there is very little difference in hardness rate with number of cure cycles due to the particle size of two grades of kaolin employed. Too little kaolin results in less than optimum hardness as does the use of bentonite clay in most cases.

Table XCV shows hardness results of the molded samples of Table XCIV after 15 chromic acid cycles followed by a single phosphoric acid impregnation and 1200° F. cure. The non-phosphoric treated data is re-listed for comparison purposes.

                                      TABLE XCIV                                   __________________________________________________________________________     HARDNESS MEASUREMENTS FOR HAND MOLDED SAMPLES                                  USING MULTIPLE CHROMIC ACID IMPREGNATIONS                                      __________________________________________________________________________                                      15-N Rockwell Hardness vs No.                                                  Impregnations                                 Sample No.                                                                            Base Oxide     Plasticizer                                                                            %  3x    5x  7x  9x  11x 13x                     __________________________________________________________________________     P-1    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         20%                                                                               --    --  87.9                                                                               88.5                                                                               92.9                                                                               93.5                    P-2    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15%                                                                               --    --  86.2                                                                               89.3                                                                               91.3                                                                               93.6                    P-3    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         10%                                                                               --    --  87.7                                                                               90.5                                                                               92.1                                                                               94.1                    P-4    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         5% --    --  85.6                                                                               85.0                                                                               90.2                                                                               92.9                    P-5    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        20%                                                                               --    --  85.3                                                                               85.1                                                                               91.9                                                                               93.0                    P-6    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        15%                                                                               --    --  84.0                                                                               89.2                                                                               91.1                                                                               93.0                    P-7    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        10%                                                                               --    --  83.9                                                                               89.6                                                                               91.7                                                                               93.8                    P-8    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        5% --    --  80.7                                                                               63.9                                                                               92.9                                                                               91.7                    P-9    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Bentonite                                                                              8% --    --  71.1                                                                               81.1                                                                               89.3                                                                               90.9                    P-10   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Bentonite                                                                              6% --    --  73.6                                                                               88.0                                                                               89.7                                                                               92.1                    P-11   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Bentonite                                                                              4% --    --  74.0                                                                               71.2                                                                               89.7                                                                               93.8                    P-12   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Bentonite                                                                              2% dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             P-13   Al.sub.2 O.sub.3, Alcoa T-61 (-325 mesh)                                                      Kaolin, Ajax P                                                                         15%                                                                               --    --  86.0                                                                               91.7                                                                               92.8                                                                               93.5                    P-14   Al.sub.2 O.sub.3, Alcoa T-61 (-325 mesh)                                                      Kaolin, Ajax 70                                                                        15%                                                                               --    --  88.1                                                                               91.7                                                                               92.5                                                                               93.5                    P-15   Al.sub.2 O.sub. 3, Alcoa T-61 (-325 mesh)                                                     Bentonite                                                                              5% --    44.7                                                                               67.3                                                                               78.8                                                                               86.1                                                                               87.8                    P-16   Al.sub.2 O.sub.3, Alcoa A-3 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15%                                                                               --    80.9                                                                               89.1                                                                               90.4                                                                               92.5                                                                               95.1                    P-17   Al.sub.2 O.sub.3, Alcoa A-3 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        15%                                                                               --    74.7                                                                               86.4                                                                               90.0                                                                               89.9                                                                               94.0                    P-18   Al.sub.2 O.sub.3, Alcoa A-3 (-325 mesh)                                                       Bentonite                                                                              5% --    --  80.6                                                                               84.3                                                                               91.4                                                                               93.1                    P-19   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15%                                                                               --    79.8                                                                               86.0                                                                               89.5                                                                               90.3                                                                               92.9                    P-20   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        15%                                                                               --    --  77.4                                                                               78.0                                                                               87.2                                                                               92.8                    P-21   Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                 Bentonite                                                                             5%             --      65.1                                                                              74.1  81.7                                                                               90.5                                                                               90.0                            P-28   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         15%                                                                               --    82.6                                                                               84.6                                                                               88.4                                                                               91.0                                                                               93.3                           Ball Milled 48 hours                                                    P-29   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         5% --    78.5                                                                               77.2                                                                               88.9                                                                               93.9                                                                               94.7                           Ball Milled 48 hours                                                    P-30   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        15%                                                                               --    82.0                                                                               90.4                                                                               90.9                                                                               92.9                                                                               92.6                           Ball Milled 48 hours                                                    P-31   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        5% --    61.0                                                                               84.9                                                                               90.0                                                                               92.8                                                                               94.4                           Ball Milled 48 hours                                                    P-32   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              6% --    65.3                                                                               71.0                                                                               87.0                                                                               89.4                                                                               92.2                           Ball Milled 48 hours                                                    P-33   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              2% --    --  77.9                                                                               87.2                                                                               92.3                                                                               93.8                           Ball Milled 48 hours                                                    P-34   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         15%                                                                               --    73.4                                                                               85.3                                                                               86.7                                                                               92.1                                                                               93.4                           Ball Milled 96 hours                                                    P-35   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         5% --    --  --  --  --  --                             Ball Milled 96 hours                                                    P-36   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        15%                                                                               --    63.7                                                                               83.5                                                                               85.6                                                                               76.7                                                                               76.0                           Ball Milled 96 hours                                                    P-37   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        5% --    77.7                                                                               79.6                                                                               85.8                                                                               93.0                                                                               93.0                           Ball Milled 96 hours                                                    P-38   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              6% --    56.3                                                                               77.7                                                                               80.3                                                                               91.6                                                                               92.5                           Ball Milld 96 hours                                                     P-39   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              2% dissolved in                                                                         --  --  --  --  --                             Ball Milled 96 hours      H.sub.2 CrO.sub.4                             P-40   Cr.sub.2 O.sub.3                                                                              Kaolin, Ajax P                                                                         15%                                                                               dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             P-41   Cr.sub.2 O.sub.3                                                                              Kaolin, Ajax P                                                                         5% dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             P-42   Cr.sub.2 O.sub.3                                                                              Kaolin, Ajax 70                                                                        15%      65.7                                                                               73.2                                                                               90.1                                                                               89.9                                                                               92.9                    P-43   Cr.sub.2 O.sub.3                                                                              Kaolin, Ajax 70                                                                        5% dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             P-44   Cr.sub.2 O.sub.3                                                                              Bentonite                                                                              6% dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             P-45   Cr.sub.2 O.sub.3                                                                              Bentonite                                                                              2% dissolved in                                                                         --  --  --  --  --                                                       H.sub.2 CrO.sub.4                             __________________________________________________________________________

                                      TABLE XCV                                    __________________________________________________________________________     HARDNESS MEASUREMENT COMPARISONS FOR SAMPLES LISTED IN TABLE XCIV              FOR 15 CHROMIC ACID IMPREGNATIONS FOLLOWED BY PHOSPHORIC ACID TREATMENT                                          15-N Rockwell Hardness Measurement           Sample No.                                                                            Base Oxide     Plasticizer                                                                            % d 15 × H.sub.2 CrO.sub.4                                                            15 × H.sub.2 CrO.sub.4 +                                                 H.sub.3 PO.sub.4                    __________________________________________________________________________     P-1    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         20% 93.3     94.6                                P-2    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15% 94.5     95.4                                P-3    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         10% 94.4     94.2                                P-4    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         5%  95.3     94.3                                P-5    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        20% 94.3     94.8                                P-6    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        15% 93.5     94.6                                P-7    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajas 70                                                                        10% 94.5     94.3                                P-8    Al.sub.2 O.sub.3, Alcoa A-5 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        5%  95.4     95.4                                P-9    Al.sub.2 O.sub.3, Alcoa A-14 (-325 mesh)                                                      Bentonite                                                                              8%  92.8     93.5                                P-10   Al.sub.2 O.sub.3, Alcoa A-14 (-325 mesh)                                                      Bentonite                                                                              6%  94.7     95.3                                P-11   Al.sub.2 O.sub.3, Alcoa A-14 (-325 mesh)                                                      Bentonite                                                                              4%  92.6     95.2                                P-13   Al.sub.2 O.sub.3, Alcoa T-61 (-325 mesh)                                                      Kaolin, Ajax P                                                                         15% 93.5     94.3                                P-14   ALl.sub.2 O.sub.3, Alcoa T-61 (-325 mesh)                                                     Kaolin, Ajax 70                                                                        15  93.7     94.0                                P-15   Al.sub.2 O.sub.3, Alcoa T-61 (-325 mesh)                                                      Bentonite                                                                              5%  90.4     92.5                                P-16   Al.sub.2 O.sub.3, Alcoa A-3 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15% 95.4     95.2                                P-17   Al.sub.2 O.sub.3, Alcoa A:3 (-325 mesh)                                                       Kaolin, Ajax 70                                                                        15% 94.9     94.9                                P-18   Al.sub.2 O.sub.3, Alcoa A-3 (-325 mesh)                                                       Bentonite                                                                              5%  95.2     95.6                                P-19   Al.sub.2 O.sub.3, Alcoa A:5 (-325 mesh)                                                       Kaolin, Ajax P                                                                         15% 91.9     94.6                                P-20   Al.sub.2 O.sub.3, Alcoa A≡(-325 mesh)                                                   Kaolin, Ajax 70                                                                        15% 94.5     94.7                                P<     Al2O.sub.3, Alcoa A≡ (-325 mesh)                                                        Bentonite                                                                              5%  91.9     92.3                                P-28   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         15% 93.2     94.0                                       Ball Milled 48 hours                                                    P-29   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         5%  94.2     95.3                                       Ball Milled 48 hours                                                    P-30   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax70                                                                         15% 95.0     94.1                                       Ball Milled 48 hours                                                                          Alcoa T-61 (-325 mesh)                                                                 Kaolin, Ajax 70                                                                    5%       95.0       94.9                            Ball Milled 48 hours                                                    P-32   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              6%  92.8     91.8                                       Ball Milled 48 hours                                                    P-33   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              2%  94.3     94.3                                       Ball Milled 48 hours                                                    P-34   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         15% 94.6     95.5                                       Ball Milled 96 hours                                                    P-35   Alcoa t-61 (-325 mesh)                                                                        Kaolin, Ajax P                                                                         5%  N.M.     N.M.                                       Ball Milled 96 hours                                                    P-36   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        15% 94.6     95.3                                       Ball Milled 96 hours                                                    P-37   Alcoa T-61 (-325 mesh)                                                                        Kaolin, Ajax 70                                                                        5%  93.3     94.9                                       Ball Milled 96 hours                                                    P-38   Alcoa T-61 (-325 mesh)                                                                        Bentonite                                                                              6%  93.5     94.1                                       Ball Milled 96 hours                                                    P-42   Cr.sub.2 O.sub.3 )-325 mesh)                                                                  Kaolin, Ajax 70                                                                        15% 95.2     95.5                                __________________________________________________________________________

The chemical process of this invention has also been found to provide advantages when used as a post-treatment for commercially produced fully sintered or fused abrasive items. It has also proven to be of use for the complete manufacture of such items entirely by the low temperature chemical bonding and hardening method of the invention. The materials that have been treated or produced in this manner have included crushed and extruded abrasive gain, tumbling chips, abrasive wheels, bonded hones and related items.

It has been found that a large number of refractory oxide materials can be effectively bonded and hardened by means of multiple impregnations thereof with a metal compound such as a salt or metal acid solution followed by heating of the treated material to a temperature sufficient to convert the metal compound into its refractory oxide form.

One of the most efficient metal acid solutions that has been found for use in this chemical bonding and hardening process is chromic acid. In this case, the maximum curing temperature used is normally about 1200° F. During the heating process, the chromic acid is converted first to a chromium trioxide (CrO₃) form, then through a series of intermediate oxides and finally to the stable, refractory chromic oxide (Cr₂ O₃) form.

The chemical treating process of this invention has been found to be useful for coating various types of commercially available aluminum oxide and silicon carbide abrasive grains. The purpose of the chemical treatment is two fold. First, to harden the abrasive and, secondly, to provide a more adherent coating for subsequent bonding of the abrasive grains together using a resin, or similar organic type, binder.

The basic coating process consists of wetting the grain with chromic acid, preferably concentrated, and curing in an oven to a temperature of about 1200° F. The process may be repeated for the desired number of impregnation-cure cycles depending on the hardnes or type of coating desired.

Whether the hardening effect is due primarily to the chemical penetration and bonding within the fissures and pores of the abrasive grain, or whether there is also a case hardening effect due to the coated surface, is not known. Microscopic examination of coated abrasive grains shows a well coated surface in addition to some noticeable penetration, depending on the type of abrasive used. The coating, at least after two or three impregnation-cure cycles, is seen to be very dense at the abrasive particle interface, while the exposed surface is somewhat porous. This graduation in coating density probably accounts for the apparent improvement in resin bonding, since there is now a somewhat porous exposed surface with which to bond rather than a slick as normally presented by the untreated abrasive.

The types of abrasive gains that have been successfully treated include friable and semi-friable types of fused and crushed aluminum oxide grain, such as Norton Type 57, 32 or 38 or equivalent Agsco Types 57, C-34, etc.; sintered aluminum oxide granules, such as Norton as Agsco Type 75 or 44; and extruded or pelletized abrasives, such as Agsco Type 76A. In addition, silicon carbide of both the "green" and "black" abrasive grades have been treated with apparently equal success.

While it has been difficult to design quantitative laboratory measurements to show that increased abrasive hardness and resin bond strengths have been achieved, comparative production tests have been made that show both these effects. One such test consisted of making 10 inch diameter resin bonded wheels using No. 46 and No. 36 semi-friable grade aluminum oxide abrasive. These wheels were 1/8 inch thick and were used to trim high chromium alloy castings on a production job. Wheels made of the chemically treated grain not only showed much less wheel wear, but also removed metal, under the same pressure and surface feet per minute conditions, 10 to 20% faster than the same type wheels using untreated grain of the same type. In this test, the chemically treated grain had been processed using 7 concentrated chromic acid immersion-cure cycles. During the manufacture of the wheels, it was noted that additional liquid was required to be added to the resin formulation when using with the treated abrasive, indicative of increased porosity due to the chromic oxide grain coating.

Some typical abrasive coating procedures are shown in Table XCVI. The method listed as CO-1 is the basic chromic acid treatment in which multiple impregnation-cure cycles, using a concentrated acid solution, is employed. The number of treatments used depends on the hardness or amount of coating desired. The remaining coating formulations listed make use of a finely divided refractory oxide and/or kaolin slurry. When this is applied to the abrasive grain and subsequently heated to drive out the moisture, a finely divided, porous oxide coating is deposited on the abrasive grain. This pre-coating step has been designed to provide an improved chromic oxide bond with fewer chromic acid impregnation-heat conversion cycles than would be the case with chromic acid treatments alone.

It will be noted in Table XCVI that methods CO-2, CO-3 and CO-4 employ hydrated kaolin as a constituent of the pre-coating slurry. It has been found that adding a small percentage of kaolin, as low as 5% to 10% of the calcined oxides, will provide a sufficient bond between the oxide particles, after heating to 1000° to 1200° F., to allow subsequent impregnation in the concentrated chromic acid solution without disintegration of the oxide coating. While kaolin has been used, other clays such as Kentucky ball clay, bentonite, and the like, may also be employed for this purpose of providing a heat setable pre-coating.. Table LXXXIV lists the types of kaolin materials used. The particular types used in this instance are products of the Georgia Kaolin Company with processing facilities at Peachtree, Ga.

                                      TABLE XCVI                                   __________________________________________________________________________     TYPICAL ABRASIVE GRAIN TREATMENTS DESIGNED TO                                  DECREASE GRAIN HARDNESS AND IMPROVE RESIN BOND STRENGTH                        __________________________________________________________________________                                                Maximum Impregnation-               Method No.                                                                            Step                                                                              Coating Formulation              Cure Temp.                                                                             Cure                        __________________________________________________________________________                                                        Cycles                      CO-1   1  H.sub.2 CrO.sub.4 (concentrated solution)                                                                       1200° F.                                                                        multiple                    CO-2   1  Kaolin (Ajax P) + H.sub.2 O mixed as slurry and used to coat                   abrasive grains                  1200° F.                                                                        1x                          CO-2   2  H.sub.2 CrO.sub.4 (concentrated solution)                                                                       1200° F.                                                                        multiple                    CO-3   1  Calcined Kaolin (Glomax LL) 80%, Hydrated Kaolin (Ajax P) 20% +                H.sub.2 O mixed as a slurry and applied to abrasive                                                             1200° F.                                                                        1x                          CO-3   2  H.sub.2 CrO.sub.4 (concentrated solution)                                                                       1200° F.                                                                        multiple                    CO-4   1  Fe.sub.3 O.sub.4 (Mapico Black Pigment) 50%, Hydrated Kaolin                   (Ajax P) 50% +                                                                 H.sub.2 O mixed as a slurry and applied to abrasive                                                             1200° F.                                                                        1x                          CO-4   2  H.sub.2 CrO.sub.4 (concentrated solution)                                                                       1200° F.                                                                        multiple                    CO-5   1  Calcined Alumina (Alcoa A-3, -325 mesh) 80%, Fe.sub.3 O.sub.4                  (pigment) 20% +                                                                diluted H.sub.2 CrO.sub.4 solution (˜10% concentration)                  to form a slurry                 1200° F.                                                                        1x                          CO-5   2  H.sub.2 CrO.sub.4 (concentrated solution)                                                                       1200° F.                                                                        multiple                    __________________________________________________________________________

Crushed, extruded and pressed abrasive grains have all been produced using the chemical bonding and hardening process of this invention. Because of the high degree of hardness required in such material, the chromium type treatment is normally preferred. This consists of treating a porous refractory oxide body with multiple concentrated chromic acid impregnations. Following each impregnation, the treated material is heated to a temperature of about 1000° to 12000° F. During this heating cycle, the chromic acid is converted, within the porous body structure, to the green Cr₂ O₃ form.

Crushed abrasives, resembling standard fused grain, can be made from a wide variety of porous oxide bodies. These may take the form of crushing and grading chemically hardened, partially sintered refractory oxide material. They may also be made from chemically hardened, pressed or extruded refractory oxide bodies.

Another method has been to use a relatively wet, plastic oxide mixture and to simply flow such a slurry onto flat drying trays. A very wet consistency can be used with this process method if desired. The evaporation of the excess water tends to provide a more closely packed oxide matrix than would be the case if a drier consistency were used.

For the slurry and pressed ways of forming the refractory oxide porous structure, three methods have been found to be highly satisfactory. The first method is to mix a small amount of chromic acid solution with the refractory oxide powder. The chromic acid may be either concentrated or diluted for this purpose, although a diluted solution would normally be used when preparing a slurry to allow rapid evaporation on the drying trays and as dense as possible oxide packing upon drying. Subsequent heating of the oxide-chromic acid mixture will cause sufficient bonding of the powdered material to allow subsequent immersions in the chromic acid solution without disintegration of the porous structure. The second method is to add a small percentage, usually 5 to 30%, of kaolin, Kentucky ball clay, bentonite, and the like, to the powdered refractory oxide and use water as the wetting liquid. Upon heating to a reasonable temperature, usually 1000° to 1200° F., depending on the type of clay used, the mixture as in the first method above will become sufficiently bonded or "set" after drying to allow immersion in the subsequent chromic acid solution treatment without disintegration. The third method is to employ a combination of the first and second methods.

Chemically hardened extruded material suitable for crushing into abrasive grain, is made using method two or three. In this case, the kaolin or clay acts as a plasticizer. With most of the refractory oxides tested, at least 10% kaolin or Kentucy ball clay, or at least 2% bentonite was found to be necesssary to achieve adequate plasticity for extrusion purposes. Interestingly enough, the presence of these kaolin-clay additives does not appreciably effect the ultimate hardness of the treated material.

While aluminum oxide refractory materials have been used for the majority of the crushed abrasive samples, chromia, tin oxide, titania and other refractory oxides have also been tested and may have some application as specialized abrasives where cost is not of prime importance. The oxides used to form these abrasives are used in finely powdered form, normally being -325 mesh or finer. Among the aluminum oxide materials employed for abrasive purposes, the 99+% Al₂ O₃ calcined, tabular and fused forms have all been successfully used. In addition, it has been found that a high degree of purity is not necessarily a requirement for a hard material. One oxide form that has been found to be very satisfactory is a fused bauxite, -325 mesh, known as Type DCF in the industry.

Table XCVII lists some partially sintered porous refractory materials that, when chemically hardened, crushed and graded, have been found to make suitable abrasive grain.

Table XCVIII is a similar listing showing formulations using crushed, chemically hardened extruded material. Table XCIX covers chemically hardened pressed material. Table C shows some oxide formulations for use with the wet slurry method. Typical hardness values listed in these tables were made prior to crushing into grain.

Another commercially used form of abrasive material that has been found to lend itself to manufacture by the chemical hardening method is extruded grain. This material usually takes the form of small diameter extruded "pellets" having a length to diameter ratio of about 1:3. Extruded grain diameters currently in use by the grinding wheel industry range from about 3/16 inch diameter to as small as 1/32 inch.

When using the chemical hardening method, the extrusions are made by forcing under pressure, a relatively plastic oxide mixture of modeling clay consistency, through an appropriate die. Some suitable plasticizer, such as kaolin, must be added to the refractory oxide mix to allow suitable flow of the material through the die. In this case, the plasticizer can usually also provide sufficient bonding of the oxide material following the initial curing cycle to allow for subsequent chromic acid impregnation without disintegration. Of course, chromic acid can also be added to the mix prior to extrusion.

Table CI lists a number of experimental formulations that have been found to provide hard extrusions with a minimum of impregnation-cure cycles. Hardness values for the extruded grain made of these formulations are listed. For hardness comparison purposes, several commercially available sintered extruded grain materials were found to have Rockwell hardness values of about 15N-93.

Another type of abrasive material known as tumbling chips has been made using chemically hardened pressed refractory powders. These tumbling abrasives are usually small discs about 1/2 inch to 3/8 inch diameter by 1/4 inch to 1/8 inch in thickness.

                                      TABLE XCVII                                  __________________________________________________________________________     CRUSHED ABRASIVE GRAIN MADE FROM                                               CHEMICALLY HARDENED, PARTIALLY SINTERED Material                               __________________________________________________________________________     Partially Sintered Porous                                                                      %   Sintering                                                                            Impregnating                                                                          Cure Rockwell Hardness vs. Impreg.                                                  Cycle                                    No.                                                                               Refractory Material                                                                         Al.sub.2 O.sub.3                                                                   Temp. Solution                                                                              Temp.                                                                               5x  7x  9x  11x 13x                      __________________________________________________________________________     Coors AP-94-11, Extruded                                                                       94% 1700° F.                                                                      100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     A-82.4                                                                             A-84.9                                                                             A-85.4                                                                             A-84.4                                                                             A-86.3                   Coors AP-99-11, Extruded                                                                       99% 1700° F.                                                                      100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     A-73.5                                                                             A-83.0                                                                             A-84.9                                                                             A-85.8                                                                             A-86.0                   Coors AP-99-L3, Extruded                                                                       99% 2570° F.                                                                      100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     A-77.5                                                                             A-84.3                                                                             A-84.6                                                                             A-85.6                                                                             A-86.6                   Coors AP-99C-L1, Cast                                                                          99% 2642° F.                                                                      100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     A-81.8                                                                             A-84.6                                                                             A-87.3                                                                             A-88.0                                                                             A-87.1                   AlSiMag No. 614, Pressed                                                                       96% >2000° F.                                                                     100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     A-75.5                                                                             A-83.4                                                                             A-84.7                                                                             A-85.3                                                                             A-84.2                   AlSiMag No. 748, Pressed                                                                       99.8%                                                                              >2000° F.                                                                     100% H.sub.2 CrO.sub.4                                                                1200°  F.                                                                    A-86.9                                                                             A-90.7                                                                             A-90.7                                                                             A-90.8                                                                             --                       __________________________________________________________________________      Note: Hardness Measurements made prior to crushing.                      

                                      TABLE XCVIII                                 __________________________________________________________________________     CRUSHED ABRASIVE GRAIN MADE FROM                                               CHEMICALLY HARDENED REFRACTORY OXIDE EXTRUDED MATERIAL                                        Parts by                                                                            Moistening                                                                           Impregnating                                                                          Cure 15-N Rockwell vs No. Impregnation                                              Cycles                                   No.                                                                               Oxide Formulation                                                                          Weight                                                                              Agent Solution                                                                              Temp.                                                                               5x   7x   9x   11x  13x                  __________________________________________________________________________     27B                                                                               DCF Abrasive                                                                               75.0 H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     --   --   92.5 93.3 --                      Fe.sub.3 O.sub.4 (pigment grade)                                                           19.0                                                               Kaolin (Ajax P)                                                                            14.0                                                            13B                                                                               DCF Abrasive                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     --   --   92.4 93.9 --                      Fe.sub.3 O.sub.4 (pigment grade)                                                           3.75                                                               Kaolin (Ajax 70)                                                                           6.33                                                            16A                                                                               DCF Abrasive                                                                               25.00                                                                               10% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     --   --   --   --   --                      Kaolin (Ajax P)                                                                            5.50                                                            __________________________________________________________________________      Note: Hardness measurements made prior to crushing.                      

                                      TABLE XCIX                                   __________________________________________________________________________     CRUSHED ABRASIVE GRAIN MADE FROM                                               CHEMICALLY HARDENED, PRESSED REFRACTORY OXIDE MATERIAL                                         Parts by                                                                            Moistening                                                                             Impregnating                                                                           Cure  15-N Rockwell vs No.                                                           Impregnation Cycles                 No.                                                                               Oxide Formulation                                                                           Weight                                                                              Agent    Solution                                                                              Temp. 5x  7x  9x  11x 13x                 __________________________________________________________________________     167                                                                               DCF Abrasive 100  100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      87.2                                                                               92.6                                                                               93.4                                                                               --  93.8                228                                                                               DCF Abrasive 122.0                                                                               100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      --  90.7                                                                               92.7                                                                               93.0                                                                               94.1                   Kaolin (Ajax P)                                                                             7.5                                                            154                                                                               Alumina Alcoa A-5                                                                           100  100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      79.2                                                                               89.1                                                                               94.1                                                                               94.8                                                                               94.6                   (-325 mesh)                                                                 221                                                                               Kaolin (Glomax JD)                                                                          100  100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      82.6                                                                               90.6                                                                               92.8                                                                               94.2                                                                               94.1                213                                                                               Kaolin (Glomax LL)                                                                          100  100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      --  90.4                                                                               92.3                                                                               93.5                                                                               94.3                219                                                                               Cr.sub.2 O.sub.3  (-325 mesh)                                                               52.1 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      89.1                                                                               93.0                                                                               95.5                                                                               96.4                                                                               96.2                   Kaolin (Glomax HE)                                                                          8.7                                                            225                                                                               Cr.sub.2 O.sub.3 (-325 mesh)                                                                52.1 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 1200° F.                                                                      89.5                                                                               94.0                                                                               94.4                                                                               95.7                                                                               96.2                   Fe.sub.3 O.sub.4 (pigment grade)                                                            12.5                                                           __________________________________________________________________________      Note: Hardness measurements made prior to crushing.                      

                                      TABLE C                                      __________________________________________________________________________     CRUSHED ABRASIVE GRAIN MADE BY                                                 WET SLURRY METHOD USING REFRACTORY OXIDE POWDERS                                               Parts by                                                                             Moistening                                                                            Impregnating                                                                           Cure  15-N Rockwell vs No.                                                           Impregnation Cycles                 No.                                                                               Oxide Formulation                                                                           Weight                                                                               Agent   Solution                                                                              Temp. 4x  6x  8x  10x  12x                __________________________________________________________________________     1-N                                                                               Al.sub.2 O.sub.3 -325 mesh                                                     (Alcoa A-3)  10.0 H.sub.2 O(8.6)                                                                         100% H.sub.2 CrO.sub.4                                                                 1200° F.                              Kaolin (Ajax P)                                                                             2.0                                                            2-N                                                                               DCF Abrasive 40.0 H.sub.2 O (42.0)                                                                       100% H.sub.2 CrO.sub.4                                                                 1200° F.                              Kaolin (Ajax P)                                                                             9.6                                                               Fe.sub.3 O.sub.4 (pigment grade)                                                            8.0                                                            3-N                                                                               DCF Abrasive 20.0 H.sub.2 O(22.0)                                                                        100% H.sub.2 CrO.sub.4                                                                 1200° F.                              Kaolin (Glomax LL)                                                                          10.0                                                              Kaolin (Ajax P)                                                                             6.0                                                            4-N                                                                               DCF Abrasive 38.0 10% H.sub.2 CrO.sub.4                                                                  100% H.sub.2 CrO.sub.4                                                                 1200° F.                              Fe.sub.3 O.sub.4 (pigment grade)                                                                 (13.3)                                                    5-N                                                                               Silicic Acid 38.1 10% H.sub.2 CrO.sub.4                                                                  100% H.sub.2 CrO.sub.4                                                                 1200° F.                              Fe.sub.3 O.sub.4                                                                            25.0                                                              Kaolin (Ajax P)                                                                             7.5                                                            __________________________________________________________________________      Note: Hardness measurement made prior to crushing.                       

                                      TABLE CI                                     __________________________________________________________________________     EXTRUDED GRAIN MADE FROM                                                       CHEMICALLY HARDENED REFRACTORY OXIDE FORMULATIONS                              (1/16" dia. × approx. 3/16" length grain)                                                 Parts by                                                                            Moistening                                                                           Impregnating                                                                            Cure  15-N Rockwell vs No.                                                           Impregnation Cycles                 No.                                                                               Oxide Formulation                                                                            Weight                                                                              Agent Solution Temp. 4x  6x  8x  10x 11x                 __________________________________________________________________________     1B DCF Abrasive +                                                                               25.0 H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      89.6                                                                               89.6                                                                               91.7                                                                               92.6                                                                               N.M.                   Kaolin (Ajax P)                                                                              5.5                                                           2B DCF Abrasive +                                                                               25.0 H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      82.3                                                                               87.2                                                                               91.1                                                                               91.5                                                                               N.M.                   Kaolin (Ajax P)                                                                              7.0                                                           4B DCF Abrasive +                                                                               25.0 H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      79.0                                                                               88.1                                                                               90.4                                                                               91.0                                                                               N.M.                   Kaolin (Ajax 70)                                                                             7.0                                                           8B DCF Abrasive +                                                                               25.0 H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      71.7                                                                               82.9                                                                               87.6                                                                               87.4                                                                               N.M.                   Bentonite     2.0                                                           10B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      78.9                                                                               87.8                                                                               91.8                                                                               92.7                                                                               N.M.                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           1.25                                                             Kaolin (Ajax P)                                                                              5.78                                                          11B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      83.1                                                                               89.7                                                                               92.2                                                                               93.5                                                                               N.M.                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           3.75                                                             Kaolin (Ajax P)                                                             12B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      85.9                                                                               89.6                                                                               91.9                                                                               93.2                                                                               N.M.                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           1.25                                                             Kaolin (Ajax 70)                                                                             5.78                                                          13B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      81.3                                                                               88.3                                                                               93.5                                                                               92.5                                                                               93.9                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           3.75                                                             Kaolin (Ajax 70)                                                                             6.33                                                          21B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      79.0                                                                               88.7                                                                               90.5                                                                               93.2                                                                               93.5                   Fe.sub.3 O.sub.4 (pigment grade)                                                             0.75                                                             Kaolin (Ajax P)                                                                              3.86                                                          23B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      82.8                                                                               89.2                                                                               92.8                                                                               92.6                                                                               93.5                   Fe.sub.3 O.sub.4 (pigment grade)                                                             3.75                                                             Kaolin (Ajax P)                                                                              4.30                                                          24B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      82.1                                                                               88.6                                                                               90.3                                                                               92.6                                                                               92.7                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           6.25                                                             Kaolin (Ajax P)                                                                              6.88                                                          25B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      82.2                                                                               87.5                                                                               91.9                                                                               93.1                                                                               92.9                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           2.50                                                             Kaolin (Ajax P)                                                                              4.13                                                          26B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      79.6                                                                               88.5                                                                               90.7                                                                               92.8                                                                               93.4                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           5.00                                                             Kaolin (Ajax P)                                                                              4.50                                                          27B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      81.3                                                                               88.0                                                                               91.3                                                                               94.0                                                                               93.3                   Fe.sub.3 O.sub.4 (pigment grade)                                                             6.25                                                             Kaolin (Ajax P)                                                                              4.69                                                          28B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      79.6                                                                               90.6                                                                               90.4                                                                               92.8                                                                               93.5                   Fe.sub.3 O.sub.4 (pigment grade)                                                             6.25                                                             Kaolin (Ajax 70)                                                                             6.88                                                          29B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      80.3                                                                               89.2                                                                               91.8                                                                               91.5                                                                               92.9                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           .75                                                              Kaolin (Ajax 70)                                                                             3.86                                                          31B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      83.2                                                                               86.9                                                                               91.1                                                                               91.4                                                                               91.5                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           3.75                                                             Kaolin (Ajax 70)                                                                             4.30                                                          33B                                                                               DCF Abrasive +                                                                               25.00                                                                               H.sub.2 O                                                                            100% H.sub.2 CrO.sub.4                                                                  1200° F.                                                                      79.1                                                                               87.4                                                                               93.3                                                                               93.0                                                                               92.7                   Fe.sub.3 O.sub.4 (pigment grade) +                                                           6.25                                                             Kaolin (Ajax 70)                                                                             4.69                                                          __________________________________________________________________________

The chemical impregnation-curing method of this invention can also be applied to most vitrified type abrasive wheels. When treating in this way, the wheels become harder and show a noticeable decrease in wear rate.

The treatment usually employed consists of multiple chromic acid impregnations. The wheel is cured following each impregnation at a temperature between 1000° to 1200° F., although lower curing temperatures may be used with longer cure times. Higher temperatures may also be used but are not necessary to achieve the desired conversion to the chromic oxide (Cr₂ O₃) form.

Another application of the treatment of the invention involves the hardening of partially sintered wheels. In this case, the wheel is processed with the chemical hardening method after only an initial pre-sintering of the wheel. This involves a more moderate firing temperature just sufficient to provide minimal bonding of the abrasive grit to allow handling during the chemical treatment. The required pre-sintering temperature will, of course, depend upon the type of bonding material used by the manufacturer. At least two types of wheels have been chemically treated without handling difficulty after pre-sintering at 1800° to 2000° F. Pre-sintered wheels processed in this manner performed at least comparable to fully sintered wheels in laboratory tests, but it has been found that even the presintering step is not required as the complete bonding method is equally effective.

The processing of abrasive wheels and related items made by bonding the adhesive grit entirely by means of the chemical hardening method involves: moistening the abrasive grain with chromic acid; pressing into a suitable mold; curing at a temperature of approximately 1200° F.; cooling, and, re-impregnating with chromic acid, and recuring for the number of cycles required to achieve the desired bond strength between abrasive particles.

The chromic acid treatment not only coats the abrasive grains with chromic oxide (Cr₂ O₃) formed during the thermal conversion process, but also forms a very strong bond or bridge between the abrasive grains wherever they are touching or nearly touching each other. This property of forming very strong bonds in small gaps and spaces between refractory oxide materials form the basis for the chemical bonding and hardening process of this invention.

Abrasive wheels made by the low temperature chemical bonding process appears to provide superior cutting properties to those made by the more conventional high temperature sintering method. The absence of a glassy matrix and associated fused edges of the abrasive grains may be chiefly responsible for the improved cutting action of the chemically bonded wheels. This is readily seen in FIG. 11 of the drawings, which shows a view of the broken section of two grinding wheels. The wheel on the left is a grinding wheel formed and hardened by the process of this invention, while the light wheel on the right is a commercial sintered wheel. Both wheels are made of No. 46 friable grade aluminum oxide abrasive grain and are 3/8 inch in side-to-side thickness. The abrasive grains in the darker wheel were coated and hardened, then bound using chromic oxide as the treating solution as set forth for sample No. 45 of Table CIII. The glassy matrix and fused edges of the grains are very much in evidence in the commercial sintered wheel. Also, it is believed that increased abrasive grain hardness is achieved, probably due to the chromic oxide coating and/or bonding of grain fractures, pores, and the like, as is found to be the case with the treated abrasive grains in resin bonded wheels.

While abrasive wheels can be made using multiple chromic acid treatments only, as described above, a more practical method has been evolved. This involves mixing a small percentage of kaolin, ball clay, finely divided aluminum oxide or other such powdered refractory oxide material with the abrasive grain. The grain and finely powdered oxide is then moistened with water or a chromic acid solution until a damp plastic mixture is obtained suitable for pressing into a mold. If water is used as the moistening agent, then a hydrated material such as kaolin or ball clay should be used as the binder to provide sufficient plasticity to the mix to not only allow easy removal of the wheel from the mold while still in the damp state, but also to provide sufficient bonding following the first 1000° to 1200° F. cure cycle to keep the grains together during subsequent chromic acid impregnations. Another more efficient method in most cases is to use the chromic acid as the moistening agent in place of water alone. The chromic acid will provide a very adequate bond during the initial cure even when a minimum of powdered binder is used. A hydrated clay material is, of course, also not required when the chromic acid is employed as the moistening agent, thereby allowing the use of a wide variety of other types of finely powdered refractory oxide binders.

While the wheel is normally removed from the mold immediately after pressing, it may also be left in the mold and removed at some later point during the cure cycle. For example, it has been found very convenient in some cases to remove the wheel after curing to a temperature of about 350° F. At this temperature, the wheel has become quite dry and stiff, especially where chromic acid is used as the moistening agent, and removal can be made with little danger of either distortion or breakage. After removing from the mold, the cure is completed by heating to the requisite temperature, 1000° to 1200° F., to assure adequate setting of the binder before proceeding with subsequent chemical impregnation-cure cycles. Pressing of the grain or grain mixture in the mold may be done by such methods as hand or motorized tamping or by using conventional high pressure hydraulic or mechanical pressing techniques. Curing may be accomplished in conventional electric or gas fired ovens. Other types of heating methods, such as dielectric and inductive, may, of course, also be employed after working out suitable time/input power cycles.

A large number of abrasive wheels have been made and tested using the chemical bonding and hardening method. These have been made in the form of mounted and unmounted wheels as small as 1/2 inch in diameter to as large as 7 inches in diameter, the largest size that could be conveniently cured in the available ovens. Abrasive grain used has varied from No. 600 to No. 8 grit size. Both aluminum oxide, friable and semi-friable grades, and silicon carbide, black and green grades, grain has been used in wheels manufactured with this process. The typical impregnation-cure cycle has been found satisfactory for wheels up to at least 7 in diameter × 1/2 inch thick. Smaller wheels can be processed in less time and it is anticipated that very massive wheels will take somewhat longer times.

Table CII lists a number of chemically bonded abrasive wheel formulations that have given excellent results. Wheels made from these formulations have ranged from 1/2 diameter to 7 inches in diameter and 1/8 to 1/2 inch in thickness, respectively. The impregnation-cure cycles were performed as in Table LXXVI.

As will be obvious to those skilled in the abrasive wheel art, a wide range of variation in the wheel formulation may be dictated, depending on the exact type of material to be cut and the quality of the wheel desired. For example, the wheel hardness can be controlled by the chromic acid concentration, number of acid impregnation-cure cycles, type and amount of binder employed, forming pressure, type and size of abrasive grain used, etc. Other considerations may include curing temperature, use of reinforcing materials, and even whether or not "burn-out" type fillers should be added for greater "chip" clearance.

Tables CIII, CIV, CV, CVI, CVII and CVIII show a series of abrasive wheel tests using 3 inches diameter × 3/8 inch thick wheels with a 3/8 inch diameter center hole. These tests were made to determine cutting speed and wear rates for various wheel formulations when cutting hardened steel. The wheel was mounted on a DuMore grinder and run at a constant 6000 rpm for all tests in the series. The sample to be cut (ground) consisted of a 5/16 inch diameter hardened drill rod blank about 3/4 inch in length. The hardness of the steel was measured at Rockwell C-65. The drill rod blank was held securely in a special pivoted test fixture so that the blank would be held against the wheel with a constant foce during the test. The test rod to wheel loading was adjusted to 2 lbs by means of a movable weight on the pivoted lever arm of the test fixture. In these test runs, the entire cutting edge of the wheel was in contact with the length of the drill rod blank and produced a plunge-cut.

Table CIII shows 2 minute test run comparisons for wheels made with No. 46 grit, friable grade aluminium oxide abrasive using the plunge-cut and hardened drill rod blanks as described above. Table CIV shows 2 minute cutting and wheel wear comparisons run in the same manner except with wheels fabricated with No. 46, semi-friable aluminum oxide grain. Tables CV and CVI show similar plunge-cut test runs, except using No. 60 friable and semi-friable alumina grain, respectively.

Tables CVII and CVIII also list cutting and wear tests for 2 minute plunge-cuts with hardened drill rod. Table CVII uses No. 46 grit, black grade silicon carbide abrasive, while the green grade is used in Table CVIII.

Table CIX shows, for comparison purposes, cutting and wear characteristics for three hardness grades of commercially produced sintered abrasive wheels. These were manufactured using the normal high temperature sintering process and are of a high quality type. They are of a friable alumina type, using No. 46 grit. This test was also conducted using the same plunge-cut technique with hardened drill rod blanks as in the preceding tests with chemically bonded wheels. The hardness values listed in the tables correspond to the industry standard where A is very soft, M is medium and Z is extremely hard. While cutting and wear comparisons are hard to make, it appears that wheels made by the chemically bonded method compare favorably to those fabricated using the standard high temperature sintering method.

Additional tests of chemically bonded wheels cured at various temperatures have been made. In general, little difference in cutting properties is noted between wheels cured at 1000°, 1200° and 1400° F. Curing at 1000° F. will require a slightly longer time than at 1400° F. to achieve the same hardness.

Some of the wheels tested above were also used to cut tungsten carbide alloy having a Rockwell hardness of 15N-95.9. Cutting and wear characterisics with this material are given in Table CX for plunge-cut testing using the same method as described earlier for the hardened drill rod tests. Since it was found that this type test tends to overheat the tungsten carbide rod, the method of testing was changed to a cross feed type of cut where one corner of the wheel is doing the major share of the work. In this case, a constant load was not used. Instead, the tungsten carbide was held stationary while the wheel was fed across it, taking a 0.001 inch cut with each pass of the wheel. The data obtained is shown in Table CXI and shows much less wheel wear than when using the plunge-cut method of Table CX.

All of the previously described grinding tests were conducted dry. Additional testing has been done using soluble oil and water as the cutting fluid. Little difference could be seen in the cutting and wear characteristics during short duration tests. However, the coolant does, of course, prevent the work from overheating during long duration cutting.

The use of "burn-out" fillers was mentioned in an earlier paragraph. An example of this is shown in Tables CII and CVI as wheel No. A-34 and wheel No. 63, respectively. Here, the "burn-out" material was Lytron 810, a material manufactured by Monsanto Chemical Co. This has characteristics similar to those of polystyrene and related products in that is sublimes at a temperature somewhere between 600° to 800° F., leaving virtually no residue. The use of such a material may be considered in cases where additional chip clearance is desired for special cutting jobs.

Another consideration of prime importance in abrasive wheel design is the bond strength. This property is usually measured in terms of modulus of rupture. Since there appear to be no well recognized standards in the industry, comparison type tests have been made using 3/4 inch × 3/8 × 6 inches test bars. Table CXII shows modulus of rupture values obtained for a number of chemically bonded test bar samples, while Table CXIII shows values for commercially produced, high temperature sintered bars of the same dimensions and grain type. The hardness values of these bars have been determined using the A to Z industry scale previously described. While it is very difficult to make comparisons on an absolute basis, it appears from the test data that chemically bonded wheels will show at least comparable strengths to those of standard sintered wheels, providing comparable hardness values, grain type and forming pressures are considered.

It will be appreciated that the low temperatures involved in the bonding process of this invention permit the inclusion of additives to grinding wheels which normally will not withstand the high temperatures necessary in the manufacture of sintered grinding. These additives include glass fibers, diamonds and the like. Glass fibers may be added to the grinding wheel composition before molding. Finely divided diamonds, on the order of 100 mesh, may be mixed with finely divided silicon carbide particles and a binder to form a paste. The paste can be applied as a coating to the cutting surface of a silicon carbide or alunina grinding wheel. The diamond-silicon carbide layer then is hardened and bonded to the grinding wheel by the process of this invention. Repeated impregnations with chromic acid for example and curing at about 1000° F. will produce a highly bonded hardened layer of diamonds embedded in silicon carbide particles. A final treatment with phosphoric acid and cure again at about 1000° F. will provide an increase in the modulus of rupture of the wheel. Care should be exercised to use a curing temperature below that which would destroy the original identity of the additives.

                                      TABLE CII                                    __________________________________________________________________________     SOME TYPICAL GRINDING WHEEL FORMULATIONS                                       USING THE CHEMICALLY BONDED METHOD                                             __________________________________________________________________________                                       Moistening                                                                            Impregnating                                                                          Cure                                                                             Cure  Wheel                  No. Wheel Size                                                                              Abrasive Grain                                                                          Binder  %   Agent  Solution                                                                              Cycles                                                                           Temp. Hardness               __________________________________________________________________________     A-2 1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Alcoa T-61                                                                             47.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                                        Ball Milled                                                                    96 Hours                                                 A-3 1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Alcoa T-61                                                                             31% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                                        Ball Milled                                                                    96 Hours                                                 A-4 1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Alcoa T-61                                                                             23% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x 1300° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                                        Ball Milled                                                                    96 Hours                                                 A-34                                                                               1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Alcoa T-61                                                                             12.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x 1300° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                               plus Lytron 810 as                                                                      Ball Milled                                                           burn-out filler                                                                         96 Hours                                                 EE  1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Kaolin  22.4%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                carbide (black)                                                                         (Ajax P)                                                 FF  1/2"×3/8"×1/8"                                                              220 grit silicon                                                                        Kaolin  12.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med. Soft                           carbide (black)                                                                         (Ajax P)                                                 K   1/2"×3/16"×1/8"                                                             80 grit silicon                                                                         Alcoa T-61                                                                             48.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x 1300° F.                                                                     Med. Hard                           carbide (black)                                                                         Alumina                                                                        Ball Milled                                                                    96 Hours                                                 J   1/2"×3/16"× 1/8"                                                            80 grit silicon                                                                         Alcoa T-61                                                                             32% 100% H.sub.2 CrO.sub.4                                                                100% H.sub. 2 CrO.sub.4                                                               2x 1300° F.                                                                     Med.                                carbide(black)                                                                          Alumina                                                                        Ball Milled                                                                    96 Hours                                                 I   1/2" ×3/16"×1/8"                                                            80 grid silicon                                                                         Alcoa T-61                                                                             24% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                                        Ball Milled                                                                    96 Hours                                                 U   1/2"×3/16"×1/8"                                                             80 grit silicon                                                                         Amaco Grey                                                            carbide (black)                                                                         Clay No. X-11                                                                          43% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                   0   1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        Alcoa T-61                                                                             26.3                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 W   1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        Alcoa T-61                                                                             19.2%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 A-6 1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        Alcoa T-61                                                                             15.1%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 N   1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        None    --  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.Soft                            semi-friable grade                                                A-32                                                                               1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        Alcoa T-61                                                                             25.8%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    24 Hours                                                 A-33                                                                               1/2"×3/16"×1/8"                                                             36 grit alumina                                                                         Alcoa T-61                                                                             26.7%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F                                                                      Med.                                semi-friable grade                                                                      Alumina                                                                        (-325 mesh)                                              A-15                                                                               1/2"×3/16"×1/8"                                                             36 grit alumina                                                                         Kaolin  10.2%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                   A-13                                                                               1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        Amaco Grey                                                                             36.3%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Clay No. X-11                                            A-14                                                                               1/2"×3/16"× 1/8"                                                            36 grit alumina,                                                                        Amaco Grey                                                                             27.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.Soft                            semi-friable grade                                                                      Clay No. X-11                                            A-8 1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        36 grit S.F.                                                                           33.3%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1300° F.                                                                     Med.                                Semi-friable grade                                                                      Alumina,                                                                       Ball Milled                                                                    24 Hours                                                 A-7 1/2"×3/16"×1/8"                                                             36 grit alumina,                                                                        36 grit S.F.                                                                           25% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Alumina,                                                                       Ball Milled                                                                    24 Hours                                                 A-26                                                                               1/2"×3/16"×1/8"                                                             46 grit alumina,                                                                        Kentucky                                                                               11.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x 1300° F.                                                                     Med.                                semi-friable grade                                                                      Ball Clay                                                A-22                                                                               1/2"×3/16"×1/8"                                                             46 grit alumina,                                                                        None    --  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x 1300° F.                                                                     Med.                                semi-friable grade                                                E-1 1-1/2"×1/4"×1/4"                                                            36 grit alumina,                                                                        Alcoa T-61                                                                             26.3%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1200° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 E-3 1-1/2"×1/4"×1/4"                                                            36 grit alumina,                                                                        Kaolin  10.2%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      (Ajax P)                                                 E-2 1-1/2"×1/4"×1/4"                                                            36 grit alumina,                                                                        Alcoa T-61                                                                             26.3%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 E-4 1-1/2"×1/4"×1/4"                                                            46 grit alumina,                                                                        Alcoa T-61                                                                             27.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x 1200° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 E-5 1-1/2"×1/4"×1/4"                                                            46 grit alumina,                                                                        Alcoa T-61                                                                             27.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 E-6 1-1/2"×1/4" ×1/4"                                                           46 grit alumina,                                                                        Kaolin  10.8%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      (Ajax P)                                                 E-7 1-1/2"×1/4"×1/4"                                                            60 grit alumina,                                                                        Alcoa T-61                                                                             29.1%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      Alumina                                                                        Ball Milled                                                                    96 Hours                                                 E-8 1-1/2"×1/4"×1/4"                                                            60 grit alumina,                                                                        Kaolin  11.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                semi-friable grade                                                                      (Ajax P)                                                 E-9 1-1/2"×1/4"×1/4"                                                            60 grit silicon                                                                         Alcoa T-61                                                                             12.7%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                carbide (black)                                                                         Alumina                                                                        Milled 96 hrs                                            E-10                                                                               1-1/2"×1/4"×1/4"                                                            60 grit silicon                                                                         Kaolin  12.7%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                carbide (black)                                                   84  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.                                                                 2x 1200° F.                                                                     Med.Soft                            friable grade                                                                           (Ajax P)                                                 85  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.                                friable grade                                                                           (Ajax P)                                                 86  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  9%  10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x 1200° F.                                                                     Med.Hard               87  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  9%  50% H.sub.2 CrO.sub.4                                                                 50% H.sub.2 CrO.sub.4                                                                 4x 1200° F.                                                                     Med.                                friable grade                                                                           (Ajax P)                                                 88  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  6%  50% H.sub.2 CrO.sub.4                                                                 50% H.sub.2 CrO.sub.4                                                                 3x 1200° F.                                                                     Med.Soft                            friable grade                                                                           (Ajax P)                                                 89  7"×1/2"×1-1/4"                                                              46 grit alumina,                                                                        Kaolin  10% 25% H.sub.2 CrO.sub.4                                                                 25% H.sub.2 CrO.sub.4                                                                 4x 1200° F.                                                                     Med.                                friable grade                                                     __________________________________________________________________________

                                      TABLE CIII                                   __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD                                             WHEELS FABRICATED FROM No. 46 GRIT FRIABLE GRADE ALUMINUM                      __________________________________________________________________________     OXIDE                                                                          TEST CONDITIONS: Wheel Diameter ˜ 2.5", Wheel Width 3/8", Wheel RPM      6000, Blank Hardness Rockwell C-65, -Blank Diameter 0.313, Blank-To-Wheel      Pressure 2 lbs.                                                                __________________________________________________________________________     Wheel             Moistening                                                                            Impregnation                                                                          Cure                                                                               Cure Wheel Original                                                                              Wheel                                                                               Depth               No. Binder    %   Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               Hardness                                                                             Wheel Dia.                                                                            Wear of                  __________________________________________________________________________                                                                Cut                 17  Alcoa T-61                                                                               27.2%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med. Hard                                                                            2.411" .000"                                                                               .091"                   Alumina                                                                        Milled 96 hrs.                                                             18  Alcoa T-61                                                                               23% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med.  2.437" .000"                                                                               .063"                   Alumina                                                                        Milled 96 hrs.                                                             19  Alcoa T-61                                                                               19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med.  2.431" .000"                                                                               .067"                   Alumina                                                                        Milled 96 hrs.                                                             82  Alcoa T-61                                                                               15.7%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.475" .000"                                                                               .111"                   Alumina                                                                        Milled 96 hrs.                                                             32  Alcoa T-61                                                                               13% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.375" .000"                                                                               .093"                   Alumina                                                                        Milled 96 hrs.                                                             33  Alcoa T-61                                                                               19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med.Soft                                                                             2.416" .000"                                                                               .085"                   Alumina                                                                        Milled 48 hrs.                                                             34  Alcoa T-61                                                                               19.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Soft  2.435" .000"                                                                               .082"                   Alumina                                                                        Milled 24 hrs.                                                             64  Alcoa C-331                                                                              12.1%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.  2.417" .000"                                                                               .069"                   hydrated alumina                                                               (-325 mesh)                                                                38  Fe.sub.3 O.sub.4                                                                         11.7%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     Med.  2.367" .000"                                                                               .118"                   pigment grade                                                              39  Fe.sub.3 O.sub.4 +                                                                           100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.380" .000"                                                                               .101"                   Kentucky                                                                       Ball Clay                                                                  40  Kentucky  7.2%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.Soft                                                                             2.425" .000"                                                                               .083"                   Ball Clay                                                                  42  Kentucky  8.8%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.426" .000"                                                                               .131"                   Ball Clay                                                                  52  Kaolin (PAF)                                                                             6.8%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.487" .000"                                                                               .071"               50  Kaolin (PAF)                                                                             6.8%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     Med.Hard                                                                             2.487" .000"                                                                               .043"               66  Kaolin (PAF)                                                                             6.8%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1000° F.                                                                     Med.  2.448" .000"                                                                               .113"               45  Kaolin (Ajax P)                                                                          5.6%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.438" .000"                                                                               .117"               47  Kaolin (Ajax P)                                                                          5.6%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     Med.Hard                                                                             2.481" .000"                                                                               .016"               65  Kaolin (Ajax P)                                                                          5.6%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1000° F.                                                                     Med.  2.416" .000"                                                                               .069"               46  Kaolin (Ajax 70)                                                                         7%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.506" .000"                                                                               .103"               48  Kaolin (Glomax JD)                                                                       6.3%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.467" .000"                                                                               .040"               49  Kaolin (Glomax HE)                                                                       6.5%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.470" .000"                                                                               .051"               __________________________________________________________________________

                                      TABLE CIV                                    __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-OUT METHOD                                             WHEELS FABRICATED USING G No. 46 GRIT SEMI-FRIABLE ALUMINUM OXIDE              __________________________________________________________________________     GRAIN                                                                          TEST CONDITIONS: Wheel Diameter˜2.5", Wheel Width 3/8", Wheel RPM        6000, Blank Hardness Rockwell C-65,                                            Blank Diameter 0.313, Blank-To-Wheel Pressure 2 lbs.                           __________________________________________________________________________     Wheel           Moistening                                                                            Impregnation                                                                          Cure                                                                               Cure Wheel Original                                                                             Wheel                                                                              Depth                   No. Binder  %   Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               Hardness                                                                             Wheel Dia.                                                                           Wear                                                                               of                                                                                 Remarks             __________________________________________________________________________     21  Alcoa T-61                                                                             23.3%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med.Hard                                                                             2.359"                                                                               .000"                                                                              .076"                       Alumina                                                                        Milled 96 hrs.                                                             22  Alcoa T-61                                                                             20.2%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med.  2.394"                                                                               .000"                                                                              .071"                       Alumina                                                                        Milled 96 hrs.                                                             54  Kaolin (Ajax P)                                                                        5.7%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.454"                                                                               .000"                                                                              .074"                   67  Kaolin (Ajax P)                                                                        8.8%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.Hard                                                                             2.416"                                                                               .000"                                                                              .094"                   68  Kaolin (Ajax P)                                                                        8.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.Hard                                                                             2.442"                                                                               .000"                                                                              .070"                   69  Kaolin (Ajax P)                                                                        7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.  2.347"                                                                               .000"                                                                              .123"                                                                              Med.                70  Kaolin (Ajax P)                                                                        6.9%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.  2.450"                                                                               .000"                                                                              .093"                   71  Kaolin (Ajax P)                                                                        6.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med.  2.467"                                                                               .000"                                                                              .087"                   72  Kaolin (Ajax P)                                                                        6.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.Hard                                                                             2.475"                                                                               .000"                                                                              .089"                   73  Kaolin (Ajax P)                                                                        6.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.465"                                                                               .000"                                                                              .152"                   74  Kaolin (Ajax P)                                                                        5.7%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.485"                                                                               .000"                                                                              .085"                   75  Kaolin (Ajax P)                                                                        5.4%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.Soft                                                                             2.508"                                                                               .000"                                                                              .135"                   76  Kaolin (Ajax P)                                                                        5.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 CrO.sub.4                                                                             3x  1200° F.                                                                     2 CrO Med.Soft                                                                       2.494"                                                                               .000"                                                                              .085"                   69A Kaolin (Ajax P)                                                                        7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 25% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                     Med.Soft                                                                             2.391"                                                                               .000"                                                                              .216"                                                                              Two Tests                                                                  .097"                                                                              Run                 69B Kaolin (Ajax P)                                                                        7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 50% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                     Med.Soft                                                                             2.433"                                                                               .000"                                                                              .095"                   __________________________________________________________________________

                                      TABLE CV                                     __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD                                             WHEELS FABRICATED USING NO. 60 FRIABLE ALUMINA GRAIN                           TEST CONDITIONS: Wheel Diameter˜2.5", Wheel Width 3/8", Wheel RPM        6000, Blank Hardness Rockwell C-65,                                            Blank Diameter 0.313, Blank-To-Wheel Pressure 2 lbs.                           __________________________________________________________________________     Wheel          Moistening                                                                            Impregnation                                                                          Cure                                                                               Cure Wheel Original                                                                             Wheel                                                                              Depth                    No. Binder  %  Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               Hardness                                                                             Wheel Dia.                                                                           Wear                                                                               of                                                                                 Remarks              __________________________________________________________________________     77  Kaolin (Ajax P)                                                                        6.5%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. Hard                                                                            2.500"                                                                               .000"                                                                              .198"                                                                              Two                  78  Kaolin (Ajax P)                                                                        6.1%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.515"                                                                               .000"                                                                              .080"                                                                              Tests                                                                      .211"                                                                              Run                  79  Kaolin (Ajax P)                                                                        5.7%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.486"                                                                               .000"                                                                              .071"                    80  Kaolin (Ajax P)                                                                        5.4%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med.  2.500"                                                                               .000"                                                                              .066"                                                                              Two                  81  Kaolin (Ajax P)                                                                        5.1%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. Soft                                                                            2.498"                                                                               .000"                                                                              .133"                                                                              Tests                                                                      .193"                                                                              Run                  __________________________________________________________________________

                                      TABLE CVI                                    __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD                                             WHEELS FABRICATED USING No. 60 SEMI-FRIABLE GRADE ALUMINUM OXIDE GRAIN         TEST CONDITIONS: Wheel Diameter˜2.5", Wheel Width 3/8", Wheel RPM        6000, Blank Hardness Rockwell C-65,                                            Blank Diameter 0.313, Blank-To-Wheel Pressure 2 lbs.                           __________________________________________________________________________     Wheel          Moistening                                                                            Impregnation                                                                          Cure                                                                               Cure Wheel                                                                               Original                                                                             Wheel                                                                              Depth                     No  Binder  %  Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               Hardness                                                                            Wheel Dia.                                                                           Wear                                                                               of                                                                                 Remarks               __________________________________________________________________________     60  Alcoa T-61                                                                             2 1/4%                                                                            100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med. 2.453"                                                                               .000"                                                                              .081"                         Alumina                                                                        Milled 96 hrs.                                                             58  Kaolin (Ajax P)                                                                        8% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     Med. 2.384"                                                                               .000"                                                                              .090"                     59  Kaolin (Ajax P)                                                                        6.1%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. 2.420"                                                                               .000"                                                                              .089"                     63  Ajax P + Lytron                                                                        8.7%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. 2.331"                                                                               .000"                                                                              .105"                         SlO as burn-out                                                                filler                                               Two                   83  Kaolin (Ajax P)                                                                        6.1%                                                                              10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. 2.487"                                                                               .000"                                                                              .188"                                                                              Tests                                                                      .125"                                                                              Run                   __________________________________________________________________________

                                      TABLE CVII                                   __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD                                             WITH HARDENED DRILL ROD AND NO. 46 GRIT SILICON CARBIDE (BLACK GRADE)          WHEELS                                                                          TEST CONDITIONS: Wheel Diameter˜ , Wheel Width 3/8", Wheel RPM          6000, Blank Hardness Rockwell C-65,                                            Blank Diameter 0.313, Blank-To-Wheel Pressure 2 lbs.                           __________________________________________________________________________     Wheel           Moistening                                                                             Impregnation                                                                           Cure                                                                               Cure Wheel                                                                               Original                                                                              Wheel                                                                               Depth                No. Binder  %   Agent   Solution                                                                               Cycles                                                                             Temp.                                                                               Hardness                                                                            Wheel Dia.                                                                            Wear of                   __________________________________________________________________________                                                               Cut                  26  Alcoa T-61                                                                             31.1%                                                                              100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                     Med. 2.297" .000"                                                                               .045"                    Alumina                                                                        Milled 96 hrs.                                                             27  Alcoa T-61                                                                             26.6%                                                                              100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                     Med. 2.358" .000"                                                                               .053"                    Alumina                                                                        Milled 96 hrs.                                                             28  Alcoa T-61                                                                             23.2%                                                                              100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                     Med. Soft                                                                           2.428" .000"                                                                               .037"                    Alumina                                                                        Milled 96 hrs.                                                             57  Kaolin (Ajax P)                                                                         6.7%                                                                              100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                     Med. 2.425" .000"                                                                               .020"                __________________________________________________________________________

                                      TABLE CVIII                                  __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD                                             WITH HARDENED DRILL ROD AND NO. 46 GRIT SILICON CARBIDE (GREEN GRADE)          WHEELS                                                                         TEST CONDITIONS: Wheel Diameter˜ 2.5", Wheel Width 3/8", Wheel RPM       6000, Blank Hardness Rockwell C-65,                                            Blank Diameter 0.313, Blank-To-Wheel Pressure 2 lbs.                           __________________________________________________________________________     Wheel           Moistening                                                                            Impregnation                                                                           Cure                                                                               Cure  Wheel Original                                                                             Wheel                                                                               Depth                No. Binder  %   Agent  Solution                                                                               Cycles                                                                             Temp. Hardness                                                                             Wheel Dia.                                                                           Wear of                   __________________________________________________________________________                                                               Cut                  56  Alcoa T-61                                                                             24.5%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      Med. Hard                                                                            2.416"                                                                               .000"                                                                               .021"                    Alumina                                                                        Milled 96 hrs.                                                             55  Kaolin (Ajax P)                                                                        7.2%                                                                               100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                      Med.  2.422"                                                                               .000"                                                                               .063"                __________________________________________________________________________

                                      TABLE CIX                                    __________________________________________________________________________     COMMERCIAL GRINDING WHEEL CUTTING AND WEAR DATA                                FOR TWO MINUTE PLUNGE-CUT METHOD                                               USING 2 LB. WHEEL-TO-WORK FORCE WITH HARDENED DRILL ROD TEST BLANKS            TEST CONDITIONS: Blank hardness Rockwell C-65, Blank Diameter                  __________________________________________________________________________     0.313                                                                          Wheel                                  Wheel Wheel Wheel Depth of              No.  Type of Wheel    Wheel Hardness                                                                          Wheel Speed                                                                            Width Diameter                                                                             Wear  Cut                   __________________________________________________________________________     J-1  No. 46 Friable Aluminum Oxide                                                                   J        6000 rpm                                                                               3/8"  2.498"                                                                               .000" .104"                 L-1  No. 46 Friable Aluminum Oxide                                                                   L        6000 rpm                                                                               3/8"  2.497"                                                                               .000" .097"                 R-1  No. 46 Friable Aluminum Oxide                                                                   R        6000 rpm                                                                               3/8"  2.497"                                                                               .000" .080"                 __________________________________________________________________________

                                      TABLE CX                                     __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING TWO MINUTE PLUNGE-CUT METHOD AGAINST TUNGSTEN CARBIDE ALLOY BLANKS       WHEELS FABRICATED FROM NO. 46 FRIABLE GRADE ALUMINUM OXIDE GRAIN               TEST CONDITIONS: Wheel Diameter˜ 2.5", Wheel Width 3/8", Wheel RPM       6000, Blank Hardness Rockwell 15N-95.9,                                        Blank Diameter .189, Blank-To-Wheel Pressure 2 lbs.                            __________________________________________________________________________     Wheel              Moistening                                                                            Impregnation                                                                          Cure                                                                               Cure Wheel                                                                               Original                                                                              Wheel                                                                               Depth               No.   Binder   %   Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               Hardness                                                                            Wheel Dia.                                                                            Wear of                  __________________________________________________________________________                                                                Cut                 29  Alcoa T-61 19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1000° F.                                                                     Med. 2.408" .009"                                                                               .006"                   Alumina                                                                        Milled 96 hrs.                                                             31  Alcoa T-61 19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                     Med. 2.411" .009"                                                                               .006"                   Alumina                                                                        Milled 96 hrs.                                                             42  Kentucky Ball Clay                                                                         8.8%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. 2.411" .006"                                                                               .008"               45  Kaolin (Ajax P)                                                                            5.6%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     Med. 2.432" .010"                                                                               .007"               66  Kaolin (PAF)                                                                               6.8%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1000° F.                                                                     Med. 2.425" .002"                                                                               .003"               __________________________________________________________________________

                                      TABLE CXI                                    __________________________________________________________________________     CHEMICALLY BONDED ABRASIVE WHEEL TESTS                                         USING CROSS FEED METHOD FOR CUTTING TUNGSTEN CARBIDE ALLOY MATERIAL            0.030" OF MATERIAL REMOVED FROM END OF BLANK USING 0.001" FEED ON EACH         PASS                                                                           Blank Hardness Rockwell 15N-95.9, Blank Diameter 0.188".                       __________________________________________________________________________                                                               T.C.                 Wheel                  Moistening                                                                            Impregnating                                                                          Cure                                                                               Cure  Original                                                                             Wheel                                                                               Material             No. Abrasive Grain                                                                           Binder                                                                              %   Agent  Agent  Cycles                                                                             Temp. Wheel Dia.                                                                           Wear Removed              __________________________________________________________________________     67  46 grit alumina,                                                                         Ajax P                                                                              8.8%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      2.326"                                                                               .006"                                                                               .030"                    semi-friable grade                                                         69  46 grit alumina,                                                                         Ajax P                                                                              7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      2.278"                                                                               .014"                                                                               .030"                    semi-friable grade                                                         71  46 grit alumina,                                                                         Ajax P                                                                              6.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      2.340"                                                                               .030"                                                                               .030"                    semi-friable grade                                                         77  60 grit alumina,                                                                         Ajax P                                                                              6.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.475"                                                                               .001"                                                                               .030"                    friable grade                                                              79  60 grit alumina,                                                                         Ajax P                                                                              5.7%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.472"                                                                               .002"                                                                               .030"                    friable grade                                                              81  60 grit alumina,                                                                         Ajax P                                                                              5.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.485"                                                                               .003"                                                                               .030"                    friable grade                                                              82  46 grit alumina,                                                                         Ajax P                                                                              5.6%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.450"                                                                               .001"                                                                               .030"                    friable grade                                                              74  46 grit alumina,                                                                         Ajax P                                                                              5.6%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.466"                                                                               .002"                                                                               .030"                    friable grade                                                              72  46 grit alumina,                                                                         Ajax P                                                                              6.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.463"                                                                               .003"                                                                               .030"                    semi-friable grade                                                         76  46 grit alumina,                                                                         Ajax P                                                                              5.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.481"                                                                               .001"                                                                               .030"                    semi-friable grade                                                         83  60 grit alumina,                                                                         Ajax P                                                                              6.1%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.475"                                                                               .008"                                                                               .030"                    semi-friable grade                                                         79  60 grit alumina,                                                                         Ajax P                                                                              5.7%                                                                               10% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      2.472"                                                                               .002"                                                                               .030"                    friable grade                                                              69A 46 grit alumina,                                                                         Ajax P                                                                              7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 25% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                      2.038"                                                                               .030"                         semi-friable grade                                                         69B 46 grit alumina,                                                                         Ajax P                                                                              7.5%                                                                               10% H.sub.2 CrO.sub.4                                                                 50% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                      2.425"                                                                               .005"                                                                               .030"                    semi-friable grade                                                         __________________________________________________________________________

                                      TABLE CXII                                   __________________________________________________________________________     MODULUS OF RUPTURE VALUES FOR                                                  SEVERAL TYPES OF CHEMICALLY BONDED ABRASIVE TEST BARS                                                    Moistening                                                                            Impregnating                                                                          Cure                                                                               Cure Modulus                       No.                                                                               Abrasive   Binder    % Agent  Solution                                                                              Cycles                                                                             Temp.                                                                               of Rupture                                                                           Remarks                 __________________________________________________________________________     1-1                                                                               No. 46 grit alumina,                                                                      Alcoa T-61                                                                             19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     2390 psi                                                                             <"G" Hardness              friable grade                                                                             Alumina                                                                        Milled 96 hrs.                                                   1-2                                                                               No. 46 grit alumina,                                                                      Alcoa T-61                                                                             19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     2240 psi                                                                             <"G" Hardness              friable grade                                                                             Alumina                                                                        Milled 96 hrs.                                                   1-3                                                                               No. 46 grit alumina,                                                                      Alcoa T-61                                                                             19.9%                                                                              100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     2410 psi                                                                             <"G" Hardness              friable grade                                                                             Alumina                                                                        Milled 96 hrs.                                                                                    Average Value   2347 psi                      41-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub. 4                                                               100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     932 psi                                                                              <"G" Hardness              friable grade                                                               41-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     1198 psi                                                                             <"G" Hardness              friable grade                                                               41-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     1145 psi                                                                             <"G" Hardness              friable grade                                                                                                Average Value   1092 psi                      42-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     1598 psi                                                                             <"G" Hardness              friable grade                                                               42-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     1998 psi                                                                             <"G" Hardness              friable grade                                                               42-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     1865 psi                                                                             <"G" Hardness              friable grade                                                                                                Average Value   1820 psi                      43-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        12% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     3463 psi                                                                             ˜J Hardness          friable grade                                                               43-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        12% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     2930 psi                                                                             ˜J Hardness          friable grade                                                               43-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        12% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     3063 psi                                                                             ˜J Hardness          friable grade                                                                                                Average Value   3152 psi                      44-1                                                                              No. grit alumina,                                                                         Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2716 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               44-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2876 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               44-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     3196 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                                                                Average Value   2929 psi                      45-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2397 psi                                                                             <"G" Hardness              friable grade                                                               45-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2530 psi                                                                             <"G" Hardness              friable grade                                                               43-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        12% 100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                     3063 psi                                                                             ˜J Hardness          friable grade                                                                                                Average Value   3152 psi                      44-1                                                                              No. grit alumina,                                                                         Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2716 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               44-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2876 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               44-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        6%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     3196 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                                                                Average Value   2929 psi                      45-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2397 psi                                                                             <"G" Hardness              friable grade                                                               45-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2530 psi                                                                             <"G" Hardness              friable grade                                                               45-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                     2344 psi                                                                             <"G" Hardness              friable grade                                                                                                Average Value   2424 psi                      50-1                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     3063 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               50-2                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     3063 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                               50-3                                                                              No. 46 grit alumina,                                                                      Kaolin (Ajax P)                                                                        9%  100% H.sub.2 CrO.sub.4                                                                100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                     3063 psi                                                                             ˜"H"                                                                     Hardness                   friable grade                                                                                                Average Value   3063 psi                      __________________________________________________________________________

                                      TABLE CXIII                                  __________________________________________________________________________     MODULUS OF RUPTURE VALUES OBTAINED FROM TWO HARDNESS GRADES OF                 COMMERCIAL, SINTERED TEST BARS                                                 OF APPROXIMATELY THE SAME DIMENSIONS OF THOSE USED IN TABLE                    __________________________________________________________________________     CXII                                                                                                  Moistening                                                                           Impregnating                                                                            Cure                                                                               Cure                                                                               Modulus                          No. Abrasive Grain                                                                             Binder                                                                             %  Agent Solution Cycles                                                                             Temp.                                                                              of Rupture                                                                           Remarks                    __________________________________________________________________________     J-1 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3102 psi                                                                             J Hardness                     friable grade wheel                                                        J-2 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3785 psi                                                                             J Hardness                     friable grade wheel                                                        J-3 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3133 psi                                                                             J Hardness                     friable grade wheel                                                                                     Average Value    3340 psi                         L-1 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3764 psi                                                                             L Hardness                     friable grade wheel                                                        L-2 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3655 psi                                                                             L Hardness                     friable grade wheel                                                        L-3 No. 46 grit alumina,                                                                       --  -- --    --       --  --  3900 psi                                                                             L Hardness                     friable grade wheel                                                                                     Average Value    3773 psi                         __________________________________________________________________________

It has been found that many of the techniques for chemically hardening and bonding abrasive wheels can also be applied to bonded honing materials. Both the chemical treatment applied to sintered or partially sintered hones and the complete chemically bonded methods, described in the preceding tables, are applicable.

Table CXIV shows test results using various chemical hardending treatments applied to commercially produced hones. These were manufactured for the Sunnen Products Company, St. Louis, Mo., and the abrasive numbers shown in the table are their standard stock numbers. Testing was done using a Standard Sunnen Honing Machine (Model MB-1600) so that constant hone pressure, mandrel speed and lubrication of the hone and part could be maintained for all samples being compared. The tests of Table CXIV were conducted using non-hardened Carpenter RDS tool steel with test pieces honed internally. The steel part has an ID of approximately 0.380 inch and a length of 0.75 inch. The Sunnen Type K-12 hones used in this test measured 1/8 inch in width × 13/4 inches in length and are made of an aluminum oxide grain. Impregnation and curing cycles for the treated hones follow those used in the treating of the powdered base materials previously set forth.

Table CXV shows the same type test as shown in Table CXIV, except that silicon carbide hones and hardened steel test pieces were used instead of the aluminum oxide hones and non-hardened steel.

The test data of Tables CXIV and CXV show that the chemical hardending treatment of the invention has a decided effect towards increasing hone life. Conversely, it can be seen that more steel can be removed for a given amount of hone wear. This, of course, should result in greater honing efficiency, especially where greater hone pressure can be used.

Some hones made entirely by the chemical bonding method are listed in Table CXVI. A wide variation in formulation will also be obvious to those skilled in the art, and will be based on type of material to be honed, hone hardness, desired cutting speed and related properties. The hones listed in Table CXVI show only two of these possible variations.

                                      TABLE CXIV                                   __________________________________________________________________________     COMPARATIVE HONING TESTS                                                       Material Hones Carpenter RDS (Not Hardened), ID ˜0.380", Length          0.75", Hone Size and Type K-12A Sunnen Hones (Aluminum)                        Oxide Grit), Length of Test 3 Minutes, Hone Pressure                                                      Cure                                                                               Maximum                                                                              Hone Material                             No.                                                                               Abrasive                                                                             Parts                                                                             Binder                                                                             Parts                                                                              Solution                                                                              Cycles                                                                             Temp. Wear Removed                                                                              Remarks                        __________________________________________________________________________     B  K-12A-61                                                                             -- --  --  --     --  --    .0483"                                                                              .0059"                                                                               Not Treated - as                                                               received                                                                       from manufacturer              C  K-12A-63                                                                             -- --  --  --     --  --    .0368"                                                                              .0080"                                                                               Not Treated - as                                                               received                                                                       from manufacturer              D  K-12A-65                                                                             -- --  --  --     --  --    .0069"                                                                              .0071"                                                                               Not Treated - as                                                               received                                                                       from manufacturer              A  K-12A-59                                                                             -- --  --  --     --  --    .0011"                                                                              .0086"                                                                               Not Treated - as                                                               received                                                                       from manufacturer              F  K-12A-61                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      .0062"                                                                              .0072"                               G  K-12A-63                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      .0052"                                                                              .0063"                               H  K-12A-65                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      .0029"                                                                              .0063"                               E  K-12A-59                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      .0003"                                                                              .0078"                               B  K-12A-61                                                                             -- --  --  --     --  --    .0483"                                                                              .0059"                                                                               Not Treated - as                                                               received                                                                       from manufacturer              A-1                                                                               K-12A-61                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                1x  1200° F.                                                                      .0474"                                                                              .0105"                                                                               Questionable Data              B-1                                                                               K-12A-61                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                2x  1200° F.                                                                      .0005"                                                                              .0044"                               C-1                                                                               K-12A-61                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                3x  1200° F.                                                                      .0002"                                                                              .0028"                               D-1                                                                               K-12A-61                                                                             -- --  --  100% H.sub.2 CrO.sub.4                                                                4x  1200° F.                                                                      .0001"                                                                              .0038"                               __________________________________________________________________________

                                      TABLE CXV                                    __________________________________________________________________________     COMPARATIVE HONING TESTS                                                       Material Honed Carpenter RDS (hardened), ID ˜0.380", Length 0.75",       Hone Size and Type K-12J Sunnen Hones (Silicon Carbide                         Grit), Length of Test 3 Minutes, Hone Pressure                                 __________________________________________________________________________                                  Cure                                                                               Maximum                                                                              Hone Material                           No.                                                                               Abrasive                                                                             Parts                                                                              Binder                                                                             Parts                                                                              Solution                                                                               Cycles                                                                             Temp. Wear Removed                                                                             Remarks                       __________________________________________________________________________        K-12J-63                                                                             --  --  --  --      --  --    .0674"                                                                              .0031"                                                                              Not Treated - as                                                               received                                                                       from manufacturer             10 K-12J-55                                                                             --  --  --  --      --  --    .0609"                                                                              .0183"                                                                              Not Treated - as                                                               received                                                                       from manufacturer             11 K-12J-57                                                                             --  --  --  --      --  --    .0176"                                                                              .0169"                                                                              Not Treated - as                                                               received                                                                       from manufacturer             12 K-12J-59                                                                             --  --  --  --      --  --    .0005"                                                                              .0073"                                                                              Not Treated - as                                                               received                                                                       from manufacturer             1  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      .0171"                                                                              .0101"                             2  K-12J-55                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      .0002"                                                                              .006"                              3  K-12J-57                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      .0002"                                                                              .0045"                             4  K-12J-59                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      .0002"                                                                              .005"                              9  K-12J-63                                                                             --  --  --  --      --  --    .0674"                                                                              .0031"                                                                              Not Treated - as                                                               received                                                                       from manufacturer             5  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 1x  1200° F.                                                                      --   --                                 1  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                                                                      .0171"                                                                              .0101"                             6  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 3x  1200° F.                                                                      .0093"                                                                              .0099"                             7  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 5x  1200° F.                                                                      .0001"                                                                              .0105"                             8  K-12J-63                                                                             --  --  --  100% H.sub.2 CrO.sub.4                                                                 7x  1200° F.                                                                      .0000"                                                                              .0054"                             __________________________________________________________________________

                                      TABLE CXVI                                   __________________________________________________________________________     SOME TYPICAL HONES MADE ENTIRELY BY THE CHEMICAL BONDING METHOD                                                     Moistening                                                                             Impregnating                                                                           Cure                                                                               Cure                  No. Hone Size    Abrasive Binder %   Agent   Solution                                                                               Cycles                                                                             Temp.                 __________________________________________________________________________     H-1 0.1" × 0.095" × 1.75"                                                           100 grit alumina                                                                        Kentucky                                                                              10% 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                        friable grade                                                                           Ball Clay                                            H-7 3/8" × 3/8" × 6"                                                                100 grit alumina,                                                                       Kentucky                                                                              10% 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                        friable grade                                                                           Ball Clay                                            H-4 0.1" × 0.095" × 1.75"                                                           100 grit alumina,                                                                       Alumina,                                                                              20% 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                        friable grade                                                                           Alcoa T-61                                                                     Milled 96 hrs.                                       H-3 0.1" × 0.095" × 1.75"                                                           100 grit alumina,                                                                       Alumina,                                                                              20% 100% H.sub.2 CrO.sub.4                                                                 100% H.sub.2 CrO.sub.4                                                                 2x  1200° F.                        friable grade                                                                           Alcoa T-61                                                                     Milled 96 hrs.                                       __________________________________________________________________________

Th chemical bonding and hardening method of this invention has also been found to provide a means of producing a ceramic based coatings for a wide variety of metal and non-metal substrates.

One embodiment in which the chemical hardening and bonding method may be used is as a post treatment for commercially applied flame sprayed, plasma sprayed or detonation type ceramic coatings. Not only can the inherently porous structure of such coatings be filled sufficiently to achieve oxidation protection for the substrate, but also the bond strength and hardness have been found to be considerably increased. Hardness values for plasma sprayed chromia coatings have been increased from 100 gram Knoop readings of less than 1600 prior to treatment to as high as 2900 after the chemical processing.

A second method of using the chemical bonding and hardening method of the invention involves the application of the coating directly to the substrate using a wet application method. In this case, the coating normally consists of a water based slurry composed of one or more refractory oxides in finely divided form. When the water is evaporated, a closely packed, but still porous, oxide coating remains on the substrate surface. This porous coating may then be bonded and hardened using the method of the invention.

The chemical bonding treatment that has been found to be the most suitable for either of the embodiments discussed above involves the use of multiple, chromic acid impregnation-cure cycles. The chromic acid, used as the impregnating solution, is converted to a refractory chromic oxide form during each cure cycle. The conversion to the chromic oxide (Cr₂ O₃) form can be accomplished at temperatures as low as 850° F., although temperatures of 1000° F. to 1200° F. are more normally used because of the much faster conversion rate at the high temperatures.

In order to prevent the freshly applied but dried coating from disintegrating when immersed in the chromic acid solution, two basic methods have been evolved: (1) A small amount of chromic acid can be added to the wet oxide coating formulation prior to application to the substrate. During the initial drying and curing cycle, the conversion of the acid to the chromic oxide (Cr₂ O₃) form will provide the necessary initial bond for the powdered refractory coating. (2) A suitable initial bond can be achieved by adding a small percentage of hydrated kaolin or similar clay binder material to the wet coating mixture. Again, upon suitable curing, the kaolin will provide a water resistant bond between the oxide particles sufficient to allow subsequent impregnation in the chromic oxide solution. Of course, both of these initial bonding methods may be combined if desired.

A wide number of tests have been made with these coating formulations on a variety of metal substrates. It is indicated that a true chemical bond exists, not only within the refractory oxide coating material itself, but also between the coating and the metal substrate. In the latter case, it is believed that the chemical bond to the metal is, in effect, due to a bond to the metal oxide that forms on the substrate. In most cases, a good oxide layer on the metal will be formed due to the release of oxygen during the initial chromic acid-chromic oxide conversion cycle. For metals, such as titanium, which are difficult to oxidize except at high temperatures, it may be desirable to pre-oxidize the substrate prior to applying the coating, if maximum coating-to-substrate bond strength is desired.

While the above statements have all assumed using a refractory oxide coating on a metal substrate, other useful variations exist. For example, it has been found that powdered metal coatings can be applied with equal success to a variety of substrates using the same chemical bonding technique as described earlier for purely oxide coatings. Also, coatings of either ceramic or metal have been successfully applied and bonded to ceramic substrates. These examples can be seen to be merely variations of the same basic chemical bonding process.

A coating consisting mainly of a powdered metal will, of course, actually be a metal-ceramic composite because of the chromic oxide bonding material in addition to the oxide(s) formed on the metal powder that make the chromic oxide to metal bond possible. The solely refractory oxide coatings will also usually be ceramic-ceramic mixtures, unless chromic oxide powder is used as the only powder in the coating formulation. It can be seen, therefore, that a tremendously wide range of coating variations exist.

Among the basic coating materials used to date in various combinations have been: aluminum oxide, zirconium oxide, chromium oxide, titanium oxide, beryllium oxide, iron oxides, tin oxide, silicon dioxide, boron oxide and nickel oxide; powdered metals have included stainless steel, titanium, iron, chromium and copper. Miscellaneous materials have included boron and silicon carbide and a variety of ceramic fibers used as reinforcing for the coatings. Substrates that have been successfully used and to which well adhering coatings have been applied include 400 series stainless steel, 300 series stainless steel, titanium, cold rolled steel, beryllium copper, inconel, beryllium and nickel. Nonmetallic substrates that have been coated to date include glass, aluminum oxide and beryllium oxide.

Still another variation in the process involves the use of multiple chromic acid, conversion cylces applied directly to a metal surface. Here, the treatment makes a chromic oxide bond with the oxidized metal surface. After several "dipping"-cure cycles, a very thin but extremely hard, dense and tough coating is achieved. The coating is dark green in color, and may range in thickness from a few millionths of an inch to perhaps .001 inch or more, depending on the extent to which the metal surface has been oxidized and/or the number of chromic acid treatments used. Several types of metals have been given protective coatings using this method. Among those that have proven quite successful to date are titanium, 400 series stainless steel, inconel and aluminum.

Commercially available coatings applied by means of the flame spray, plasma spray and so-called detonation methods may be hardened by the method of the invention. As pointed out above, coatings applied by these methods are inherently porous. Not only does the chemical treatment method provide a means of closing up the porous body, it also can be used to significantly increase the coating hardness. In addition, pull tests have invariably shown a definite improvement in coating-to-substrate adhesion.

FIGS. 12 and 13 show 300X magnification photographs of both a non-treated and a treated coating, respectively. The photographs were taken as cross sections through the coated sample and show the coating, metal substrate and epoxy used to embed the section in the metallographic sample holder. FIG. 12 shows a plasma sprayed chromic oxide coating on a titanium substrate as received from a reliable vendor with no post-chemical treatment. This photograph is typical of other samples of the same type coating and clearly shows the sizeable extent of the interconnected porous structure. FIG. 13 shows the same type coating after nine impregnation-cure cycles using the chromic acid type treatment with 1200° F. maximum cure temperature. This is a view of sample 4-74 shown in Table CXVII. Note that the interconnected porosity is now virtually eliminated, although a few trapped pores still remain. The hardness of the non-treated sample, shown in the photograph of FIG. 12, averaged 1594 on the 100 gram Knoop scale and 1682 on the 300 gram Vickers scale. After nine chemical treatments, FIG. 13, the hardness had increased to an average reading of 2940 on the 100 gram Knoop scale and 2704 on the 300 gram Vickers scale.

Hardness measurements and the chemical treatment procedure for the example above, along with several others, is shown in Table CXVII. These tests were all made using plasma sprayed chromic oxide coatings on titanium balls. Chromic acid and/or phosphoric acid treatments were employed as indicated. The chromic acid treatment consists in impregnating the coated area with chromic acid and then slowly elevating the temperature until the acid has been converted to the chromic oxide form. Multiple treatments are usually employed to achieve a high degree of hardness. The phosphoric acid treatment, when used, is applied and cured in a similar manner to that used for the chromic acid treatment. X-ray diffraction analysis has shown that the phosphoric acid treatment results in the formation of a phosphate of one or more of the oxides present in the porous coating upon heating to the appropriate curing temperature. The phosphoric acid treatment, unlike the chromic acid method, has been found to be effective only as a final process. Multiple phosphoric treatments not only result in virtually no significant increase in hardness, they also often result in the fracturing of the ceramic structure. Both treatments are normally cured to 1000° F. to 1200° F. Curing temperatures as low as 850° F. can often be used, but will normally require somewhat longer exposure times.

The chromic acid treatment has been found to be most effective when used to harden a structure having relatively small pores. This is probably related to the extremely small ultimate crystal size of the chromic oxide (5.35 A). When used to fill large size pores, many successive treatments may be required before adequate "filling" and associated hardness is achieved. On the other hand, the phosphoric acid impregnation method works most effectively when relatively larger size pores are present. In fact, this treatment will have little or no effect toward increasing the hardness of a ceramic structure if the pores are too small. Since most commercially applied ceramic coatings will be found to contain an interstitial porosity of widely mixed dimension, the use of multiple chromic acid treatments followed by a final phosphoric acid treatment has usually been found to provide optimum coating hardness with the fewest number of total impregnation-cure cycles.

Table CXVIII lists hardness results obtained by providing seven chromic acid impregnation-cure cycles followed by a final phosphoric acid treatment for an 80% chromia, 20% alumina coating applied by the Linde detonation process of Union Carbide Co. Again, hardness was noticeably increased following the chemical treatment process.

Tables CXIX through CXXV, inclusive, show 15N-Rockwell hardness values obtained by applying chemical treatments to both flame and plasma sprayed coatings on steel substrates. The coatings shown in these Tables include chromic oxide, aluminum oxide, zirconium oxide and titanium oxide. In every case, the chemical treatments are seen to substantially increase the coating hardness. Curing temperatures for this particular series was limited to 900° F. for the chromic acid treatment and 1200° F. for curing the phosphoric acid. The coatings were applied using either the "Rokide" flame spray method of The Norton Company or the "Metco" plasma spray method of Metallizing Specialties Company as appropriate for the oxide material indicated in the Tables. A standard nickel-aluminide undercoat was applied prior to coating with the ceramic oxide. Coating thickness for these samples was held between 0.010 to 0.012 inch by lapping surface after coating. Samples tested were flat discs 3/4 inch in diameter. The same four types of treated ceramic coatings have also been applied to titanium and aluminum substrates. Hardness results were substantially identical to those of Tables CXIX through CXXV.

The marked increase in coating-to-substrate band strength as a result of the chemical processing is shown in Table CXXVI. Shown are a variety of chromic acid and/or phosphoric acid treatments applied to plasma sprayed chromic oxide coatings on titanium balls. The item listed as 4-X in the Table CXXVI shows average bond strength values for coated balls not chemically treated. Bond strength measurements for the chemically treated samples listed were taken from the same lot. The measurements were made by determining the pull (in pounds force) equipped to separate a properly contoured metal rod that had been cemented to the coating with Armstrong epoxy cement. The contact area between the pull rod and the coated ball was 0.11 square inches. Referring again to Table CXXVI, it is seen that the adhesive-to-coating bond fails in some cases instead of the coating-to-substrate bond. In other cases, some failure is seen to occur in both bonds. When part (or all) of the failure is adhesive, the coating-to-substrate bond strength is impossible to determine except that it will, of course, be equal to or greater than the value at which the adhesive failure occurred.

                                      TABLE CXVII                                  __________________________________________________________________________     INCREASE IN HARDNESS VALUES FOR COMMERCIAL PLASMA SPRAYED CHROMIC OXIDE        COATINGS                                                                       DUE TO PROCESSING WITH CHEMICAL HARDENING PROCESS                              __________________________________________________________________________                     Metal Chromic Acid                                                                          Cure Phos. Acid                                                                            Cure 100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                            Ceramic Coating                                                                         Substrate                                                                            Impregnations                                                                         Temp.                                                                               Impregnations                                                                         Temp.                                                                               Knoop Vickers                                                                              Hardness             __________________________________________________________________________     4-X    Cr.sub.2 O.sub.3                                                                        Titanium                                                                             None   --   None   --    1594*                                                                                1682*                                                                               N.M.                 4-65   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             None   --   1x     1200° F.                                                                     2050  2053  N.M.                 4-66   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             3x     900° F.                                                                      1x     1200° F.                                                                     2108  2142  N.M.                 4-67   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             5x     900° F.                                                                      1x     1200° F.                                                                     2115  2385  N.M.                 4-70   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             9x     900° F.                                                                      1x     1200° F.                                                                     2280  2127  N.M.                 4-72   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             9x     900° F.                                                                      None   --   2200  2210  N.M.                 4-74   Cr.sub.2 O.sub.3                                                                        Titanium                                                                             9x      1200° F.                                                                    None   --   2940  2704  N.M.                 __________________________________________________________________________      *Average values for lot of 100 samples as received from vendor (no             chemical treatment). Treated samples list hardness values for average of       six readings and were samples taken from same lot as 4-X.                

                                      TABLE CXVIII                                 __________________________________________________________________________     INCREASE IN HARDNESS VALUE FOR CHROMIA-ALUMINA COATING APPLIED TO              TITANIUM SUBSTRATE BY LINDE DETONATION PROCESS FOLLOWED BY                     CHEMICAL HARDENING AND BONDING TREATMENT                                       __________________________________________________________________________                    Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample                                                                               Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     3-X   80% Cr.sub.2 O.sub.3                                                                    Titanium                                                                            None   --    None   --    960*   1090*                                                                               N.M.                       20% Al.sub.2 O.sub.3                                                     3-100 80% Cr.sub.2 O.sub.3                                                                    Titanium                                                                            7x     900° F.                                                                       1x     1200° F.                                                                      1761  1720  N.M.                       20% Al.sub.2 O.sub.3                                                     __________________________________________________________________________      *Average readings for coated samples taken from same lot as No. 3-100          prior to chemical treatment.                                             

                                      TABLE CXIX                                   __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL FLAME SPRAYED CHROMIA COATINGS             USING ROKIDE C MATERIAL                                                        __________________________________________________________________________                    Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     65-X  Cr.sub.2 O.sub.3                                                                        Steel                                                                               None   --    None   --    N.M.  N.M.  15N-90.9             65    Cr.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-94.5             65-A  Cr.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-94.7             67    Cr.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  N.M.                 66    Cr.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-94.3             __________________________________________________________________________

                                      TABLE CXX                                    __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL PLASMA SPRAYED CHROMIA COATINGS            USING METCO 106NS MATERIAL                                                                    Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     73-X  Cr.sub.2 O.sub.3                                                                        Steel                                                                               None   --    None   --    N.M.  N.M.  15N-91.9             73    Cr.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-95.5             75    Cr.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-95.1             73-A  Cr.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-95.9             __________________________________________________________________________

                                      TABLE CXXI                                   __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL FLAME SPRAYED ALUMINA COATINGS             USING ROKIDE A MATERIAL                                                                       Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     72-X  Al.sub.2 O.sub.3                                                                        Steel                                                                               None   --    None   --    N.M.  N.M.  15N-86.9             72    Al.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-92.7             72-A  Al.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-93.6             77    Al.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-92.3             76    Al.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-92.4             __________________________________________________________________________

                                      TABLE CXXII                                  __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL PLASMA SPRAYED ALUMINA COATINGS            USING METCO 105 MATERIAL                                                                      Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     61-X  Al.sub.2 O.sub.3                                                                        Steel                                                                               None   --    None   --    N.M.  N.M.  15N-85.3             61    Al.sub.2 O.sub.3                                                                        Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-91.1             68    Al.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-92.5             61-A  Al.sub.2 O.sub.3                                                                        Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-95.9             __________________________________________________________________________

                                      TABLE CXXIII                                 __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL FLAME SPRAYED ZIRCONIA COATINGS            USING ROKIDE Z MATERIAL                                                                       Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     64-X  ZrO.sub.2                                                                               Steel                                                                               None   --    None   --    N.M.  N.M.  15N-77.0             64    ZrO.sub.2                                                                               Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-87.8             64-A  ZrO.sub.2                                                                               Steel                                                                               3x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-92.2             79    ZrO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-88.3             69    ZrO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-88.3             __________________________________________________________________________

                                      TABLE CXXIV                                  __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL PLASMA SPRAYED ZIRCONIA COATINGS           USING METCO 2018 MATERIAL                                                                     Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     74-X  ZrO.sub.2                                                                               Steel                                                                               None   --    None   --    N.M.  N.M.  15N-79.2             74    ZrO.sub.2                                                                               Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-88.5             80    ZrO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-88.5             74-A  ZrO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-91.9             __________________________________________________________________________

                                      TABLE CXXV                                   __________________________________________________________________________     INCREASE IN HARDNESS FOR COMMERCIAL PLASMA SPRAYED TITANIA COATINGS            USING METCO 102 MATERIAL                                                                      Metal                                                                               Chromic Acid                                                                          Cure  Phos. Acid                                                                            Cure  100 Gram                                                                             300                                                                                  Rockwell             Sample No.                                                                           Ceramic Coating                                                                         Substrate                                                                           Impregnations                                                                         Temp. Impregnations                                                                         Temp. Knoop Vickers                                                                              Hardness             __________________________________________________________________________     62-X  TiO.sub.2                                                                               Steel                                                                               None   --    None   --    N.M.  N.M.  15N-84.4             62    TiO.sub.2                                                                               Steel                                                                               3x     900° F.                                                                       None   --    N.M.  N.M.  15N-90.5             78    TiO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       None   --    N.M.  N.M.  15N-91.0             62-A  TiO.sub.2                                                                               Steel                                                                               5x     900° F.                                                                       1x     1200° F.                                                                      N.M.  N.M.  15N-91.0             __________________________________________________________________________

                                      TABLE CXXVI                                  __________________________________________________________________________     BOND STRENGTH MEASUREMENTS FOR PLASMA SPRAYED CHROMIA COATINGS                 WITH AND WITHOUT CHEMICAL TREATMENTS                                           __________________________________________________________________________           Ceramic                                                                             Metal                                                                               Chromic Acid                                                                          Cure Phos. Acid                                                                            Cure Pull Test                                                                             Bond   Type                     Sample No.                                                                           Coating                                                                             Substrate                                                                           Impregnations                                                                         Temp.                                                                               Impregnations                                                                         Temp.                                                                               .11 in.sup.2 Area                                                                     Strength                                                                              Failure                  __________________________________________________________________________     4X*   Cr.sub.2 O.sub.3                                                                    Titanium                                                                            None   --   None   --    240 lbf*                                                                              2182 psi*                                                                            100% coating             4-65  Cr.sub.2 O.sub.3                                                                    Titanium                                                                            None   --   1x     1200° F.                                                                     847 lbf                                                                               7700 psi                                                                              75% adhesive             4-66  Cr.sub.2 O.sub.3                                                                    Titanium                                                                            3x     900° F.                                                                      1x     1200° F.                                                                     508 lbf                                                                               4618 psi                                                                              75% adhesive             4-67  Cr.sub.2 O.sub.3                                                                    Titanium                                                                            5x     900° F.                                                                      1x     1200° F.                                                                     830 lbf                                                                               7545 psi                                                                              80% adhesive             4-70  Cr.sub. 2 O.sub.3                                                                   Titanium                                                                            9x     900° F.                                                                      1x     1200° F.                                                                     470 lbf                                                                               4273 psi                                                                              100% adhesive            4-72  Cr.sub.2 O.sub.3                                                                    Titanium                                                                            9x     900° F.                                                                      None   --   984 lbf                                                                               8945 psi                                                                              75% coating              4-74  Cr.sub.2 O.sub.3                                                                    Titanium                                                                            9x     900° F.                                                                      None   --   930 lbf                                                                               8455 psi                                                                              85%                      __________________________________________________________________________                                                           adhesive                  *Average coating-to-substrate bond strengths measured from large number o      coated samples as received from vendor. Treated samples are from same lot                                                                               

The application of ceramic coatings using the wet slurry method is now described. In this method, the coating is initially applied to the substrate in the form of a liquid based mixture of one or more finely divided refractory oxides. When the liquid, normally water, has left the slurry, a closely packed but still porous oxide coating will remain on the surface of the substrate. This porous coating is then bonded and hardened using the same general multiple chromic acid-chromic oxide conversion cylcles described earlier. A final phosphoric acid treatment may also be used.

To prevent the freshly applied coating from disintegrating when subsequently impregnated with the initial chromic acid hardening and bonding treatment, two basic techniques have been developed as previously mentioned.

A small amount of chromic acid or chromium trioxide may be added to the slurry prior to application and, on drying the coating, the oxides will be sufficiently bonded to permit subsequent acid immersion or a binder, such as kaolin, may be added to the slurry to provide the necessary bonding action or both may be used.

A wide variety of refractory oxides, in finely divided form, have been found to be suitable for use in these coating formulations. These have included chromic oxide, aluminum oxide, beryllium oxide, silicon dioxide, titanium dioxide, stannic oxide, calcined and hydrated kaolin, zirconium oxide and iron oxides. Several variables must be considered, however, when compounding these formulations. These include oxide particle sizes and shapes, thermal expansion and conductivity characteristics of the oxide coating as compared to those of the substrate, upper temperature range that the coating is to be subjected to, desired coating flexibility characteristics, etc. Also, as pointed out previously, the use of ceramic reinforcement fibers and the like can be considered.

Both the chromic acid multiple treatment method and the final phosphoric acid treatment methods as described previously have been found useful for hardening and bonding coatings applied by the wet slurry method. The phosphoric acid final hardening treatment is particularly useful for coatings in which larger particle sizes are employed and where some larger pores may be present that might otherwise be difficult to "fill" using the chromic acid method alone.

Table CXXVII shows a series of tests using a variety of aluminum oxide based coating formulations applied to titanium substrates. These samples were titanium discs measuring 1/2 inch in diameter by 3/16 inch in thickness. The coating was applied to one side only. The Table lists the Mohs scale hardness values obtained as compared to the number of chromic acid impregnation-cure cycles. No phosphoric acid final treatment was used in this particular test series. The Alcoa materials listed in the coating formulation column of Table CXXVII are either calcined or tabular alumina of a -325 mesh grade unless additional ball milling is indicated. When additional ball milling is indicated, it refers to milling in a wet condition. The kaolin listed as "Ajax P" in Table CXXVII is a hydrated form manufactured by the Georgia Kaolin Company.

Table CXXVII also lists coating-to-substrate band strengths measured for these particular formulation and treatment methods. The band strengths were measured after 13 chromic acid impregnation-cure cycles using the same pull test previously described in which a metal rod with a contacting surface area of 0.11 square inches is attached to the ceramic coating by means of an epoxy cement. Again, the type of bond failure, coating or adhesive, is listed in terms of approximate percentage failure area. It can be seen that exceedingly high coating bond strengths have been achieved with the majority of these coatings. It should also be pointed out that these samples have been applied to a smooth titanium surface with no special cleaning preparation to remove finger prints or other contamination. The typical coarse sandblasted surface pre-treatment, as used in plasma sprayed and similar type commercial coatings, is not required when using the method of this invention. Here, a true chemical bond is made to the metal surface assuring high bond strength without relying on mechanical bonding means. This may often be an important practical consideration when physically disturbing the metal substrate may seriously affect its mechanical strength or fatigue properties. A case in point would be a protective coating applied to turbine blades.

Table CXXVIII shows a similar type titanium sample with a ceramic slurry applied coating, but lists the increase in Rockwell hardness readings with number of chromic acid impregnation-cure cycles. The 15N scale was used to prevent breaking through the thin coating.

A variety of coating formulations applied to different metal substrates are listed in Table CXXIX. These coatings have been hardened using the multiple chromic acid treatment method both with and without a final phosphoric acid impregnation-cure cycle. Hardness value, bond strength and micro-crack determinations have been made for the majority of the samples listed in this Table. Micro-crack inspection was accomplished using an ultra-sensitive Zyglo (phosphorescent) method. Table CXXIX also lists a pigment grade Fe₃ O₄. This is manufactured by Columbia Carbon Company and sold as "Mapico Black". This is a synthetic magnetite having an average composition of 22% FeO and 77% of Fe₂ O₃. This converts to the red Fe₂ O₃ form during the first cure cycle. Samples 21 and 35 of Table CXXIX show the use of reduced iron. This is a very finely divided iron powder and is also converted during the oven curing cycles to the red Fe₂ O₃ form. The item listed in some of the formulations as H₂ SiO₃ is a technical grade silicic acid. The maximum curing temperature used for all samples listed in Table CXXIX was 1200° F.

Thermal shock tests have been made to determine the compatibility of various coating formulations to particular substrates. Table CXXX lists a number of the formulation-substrate combinations that have been tested and showed satisfactory results following the severe thermal shock tests to which they were subjected. The test consisted of heating the ceramic coated metal substrate until stabilized at 1200° F. and then quenching in either water at room temperature or liquid nitrogen. While the water quench method certainly provides the most severe thermal shock conditions, the liquid nitrogen subjects the coated part to a much wider temperature excursion. When using the liquid nitrogen treatment, the part under test was allowed to remain in the bath for some time after all bubbling had stopped and the temperature had undoubtedly dropped well below -300° F. After removing from the water or liquid nitrogen, the coated parts were then dried out and checked for micro-cracks, flaking, softening or failure of any other kind.

As a result of many thermal shock tests, it has been found that if a coating will survive the water quench test, it will also invariably pass the liquid nitrogen test. The reverse has not been found to be true and, in fact, the vast majority of coated samples tested easily survived the liquid nitrogen quench test from 1200° F. In addition, it has been found that these chemically bonded coatings have a remarkable degree of flexibility without cracking or otherwise failing. For these reasons, it is felt that coating-substrate combinations that fail during the thermal shock tests do so more because of differences in thermal conductivity properties than because of minor thermal expansion mismatches.

A number of ceramic coated, thin inconel strips have been tested for flexural properties. Coating formulations such as those shown for Samples A-1, A-4, A-6, A-8, A-12, A-38, A-40, A-42, A-50 and 6 of Table CXXVII have been tested in this manner without failure. While this type test is extremely simple in nature, it does show that a high degree of flexibility is exhibited by the coating. Even when the strip is bent until cracking and spalling of the coating occurs, there usually is still a layer of ceramic still adhering to the metal surface, attesting to the strong chemical bond to the metal oxide layer.

Although not specifically listed in the coating formulations included in these tests, most of the coating slurries were compounded with the addition of a small amount of an organic wetting agent. The wetting agent or surfacant helps in causing the wet coating mixture to flow more easily and uniformly over the substrate surface. The organic agent will, of course, decompose during the normal curing cycle.

While most all of the examples listed in the Tables following this paragraph show coatings applied to metal substrates, various ceramics, glass and other non-metals have also been successfully used with properly matched coating formulations. Here, it is assumed that a bond is made directly to the oxide material of the substrate in the same manner as it is believed the bond is made to the metal oxide layer formed on the metal substrates. Some examples are listed in Table CXXXI.

                                      TABLE CXXVII                                 __________________________________________________________________________     INCREASE IN HARDNESS READINGS WITH NUMBER OF CHROMIC ACID IMPREGNATION         CURE CYCLES                                                                    COATING BOND STRENGTH TO TITANIUM SUBSTRATE IS ALSO GIVEN                      __________________________________________________________________________                                         Mohs Hardness vs                                             Parts                                                                               Impregnating                                                                          Cure No. Cure Cycles                                                                               Bond Type                    Sample No.                                                                           Coating Formulation                                                                        (By Wt.)                                                                            Solution                                                                              Temp.                                                                               5x 7x 9x 11x                                                                               13x                                                                               Strength                                                                            Failure                 __________________________________________________________________________     A-1   Alcoa A-14 (-325 mesh)                                                                     5.0  100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     5-6                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              4400 psi                                                                            100% coating                  Kaolin - Ajax P                                                                            0.5                                                                H.sub.2 O   5.5                                                          A-4   Alcoa A-14 (-325 mesh)                                                                     5.0  100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              10400                                                                               100% adhesive                 Kaolin - Ajax P                                                                            0.5                                                                H.sub.2 O   8.25                                                         A-6   Alcoa A-14 (-325 mesh)                                                                     5.0  100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     5-6                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              10350                                                                               100% adhesive                 Kaolin - Ajax P                                                                            1.0                                                                H.sub.2 O   6.0                                                          A-8   Alcoa A-14 (-325 mesh)                                                                     5.0  100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              7280 psi                                                                            100% adhesive                 Kaolin - Ajax P                                                                            1.0                                                                H.sub.2 O   9.0                                                          A-12  Alcoa A-14 (-325 mesh)                                                                     5.0  100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              N.M. --                            Kaolin - Ajax P                                                                            1.5                                                                H.sub.2 O   9.75                                                         A-38  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              7870 psi                                                                            100% adhesive                 Kaolin - Ajax P                                                                            0.50                                                               H.sub.2 O   5.50                                                         A-40  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              ≧7280                                                                        100% adhesive                 Kaolin - Ajax P                                                                            0.50                                                               H.sub.2 O   8.25                                                         A-42  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              4670 psi                                                                            100% coating                  Kaolin - Ajax P                                                                            1.00                                                               H.sub.2 O   6.00                                                         A-44  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              4350 psi                                                                            100% coating                  Kaolin - Ajax P                                                                            1.00                                                               H.sub.2 O   9.00                                                         A-46  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              ≧9420                                                                        100% adhesive                 Kaolin - Ajax P                                                                            1.50                                                               H.sub.2 O   6.50                                                         A-48  Alcoa T-61 (-325 mesh)                                                                     5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              9100 psi                                                                            100% adhesive                 Kaolin - Ajax P                                                                            1.50                                                               H.sub.2 O   9.75                                                         A-50  Alcoa T-61                                                                     (Milled 48 Hours)                                                                          5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              8830 psi                                                                            100% adhesive                 Kaolin - Ajax P                                                                            0.50                                                               H.sub.2 O   5.50                                                         A-52  Alcoa T-61                                                                     (Milled 48 Hours)                                                                          5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9- 10                                                                             9-10                                                                              9-10                                                                              6180 psi                                                                            100% adhesive                 Kaolin - Ajax P                                                                            0.50                                                               H.sub.2 O   8.25                                                         A-55  Alcoa T-61  5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     4-5                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              8180 psi                                                                            100% adhesive                 (MIlled 48 Hours)                                                              Kaolin - Ajax P                                                                            1.00                                                               H.sub.2 O   6.00                                                         6     Meller Al.sub.2 O.sub.3                                                                    5.00 100% H.sub.2 CrO.sub.4                                                                1200° F.                                                                     5-6                                                                               8-9                                                                               9-10                                                                              9-10                                                                              9-10                                                                              8820 psi                                                                            100% adhesive                 (1-30 μ)                                                                    Kaolin - Ajax P                                                                            0.50                                                               H.sub.2 O   5.50                                                         __________________________________________________________________________

                                      TABLE CXXVIII                                __________________________________________________________________________     INCREASE IN ROCKWELL HARDNESS VALUES WITH                                      INCREASING NUMBER OF CHROMIC ACID IMPREGNATION-1200° F. CURE            CYCLES                                                                         FOR ALUMINA TYPE COATING                                                       Sample No. 5                                                                   1/2 inch diameter titanium substrate (3/16 inch thick disc)                    Coating Thickness:                                                                            ˜.020 inch                                                Coating Formulation:                                                                          (a) Alcoa T-61 (-325 mesh)                                                                    --  10.0                                                                               (parts by weight)                                       ball milled 48 hours                                                           (b) 100% Chromic Acid                                                                         --  0.1                                                         (c) H.sub.2 O  --  7.5                                          Impregnation Solution:                                                                        100% H.sub.2 CrO.sub.4                                          Maximum Cure Temperature:                                                                     1200° F.                                                 Rockwell Hardness vs No. Impregnation-Cure Cycles:                                                           5x  =   15N-83.9                                                               7x  =   15N-91.4                                                               9x  =   15N-92.9                                                                11x                                                                               =   15N-94.4                                                                11x                                                                               =   15N-94.8                                 __________________________________________________________________________

                                      TABLE CXXIX                                  __________________________________________________________________________     HARDNESS, BOND STRENGTH AND MICRO-CRACK TESTING FOR                            DIFFERENT CHEMICALLY TREATED CERAMIC COATINGS APPLIED TO A                     VARIETY OF METAL SUBSTRATES                                                                                    Final                                          Sample                                                                              Metal            Parts                                                                               H.sub.2 CrO.sub.4                                                                   H.sub.3 PO.sub.4                                                                         Cracks                                                                             Coating                                                                             Bond Type                   No.  Substrate                                                                           Coating Formulation                                                                        (By Wt.)                                                                            Impreg.                                                                             Impreg.                                                                            Hardness                                                                             (zyglo)                                                                            Thickness                                                                           Strength                                                                            Failure                __________________________________________________________________________     A-40 Titanium                                                                            Alcoa T-61 (-325 mesh)                                                                     5.0  13x  None                                                                               9-10 Mohs                                                                            None                                                                               ˜.010"                                                                        7380                                                                                100% adhesive               (1/2" dia.)                                                                         Kaolin - Ajax P                                                                            0.5           1870-300g                                            H.sub.2 O   5.5           Vickers                                    5    Titanium                                                                            Alcoa T-61  10.0 13x  None                                                                               9-10 Mohs                                                                            None                                                                               .0085"                                                                              2411                                                                                100% coating                (1/2" dia.)                                                                         (ball milled 48 hrs.)     2150-300g                                            100% H.sub.2 CrO.sub.4                                                                     0.3           Vickers-                                             H.sub.2 O   7.5           2023-100g                                                                      Knoop                                      12   Titanium                                                                            Alcoa T-61  9.7  13x  None                                                                               9-10 Mohs                                                                            None                                                                               .0025"                                                                              2726                                                                                100% coating                (1/2" dia.)                                                                         (ball milled 96 hrs.)     1670-100g                                            Kaolin-Ajax P                                                                              0.3           Knoop                                                100% H.sub.2 CrO.sub.4                                                                     0.1                                                                H.sub.2 O   5.0                                                      13   Titanium                                                                            Alcoa T-61  9.7  13x  None                                                                               9-10 Mohs                                                                            None                                                                               .002"                                                                               7136                                                                                100% adhesive               1/2"dia.                                                                            (ball milled 96 hrs.)                                                          Kaolin-Ajax P                                                                              0.3                                                                100% H.sub.2 CrO.sub.4                                                                     0.1                                                                H.sub.2 O   7.5                                                      440C-1                                                                              440C Stain-                                                                         H.sub.2 SiO.sub.3                                                                          5.0  5x   1x  9-10 Mohs                                                                            None                                                                               .006"                                                                               5100                                                                                100% coating                less Steel                                                                          Fe.sub.3 O.sub.4 (pigment grade)                                                           1.0           1196-100g                                       (2" dia.)                                                                           Kaolin - Ajax P                                                                            1.5           Knoop-                                               H.sub.2 O   8.0  1219-300g                                                                               Vickers                                    416-1                                                                               416  Cr.sub.2 O.sub.3                                                                           1.6  5x   1x  9-10 Mohs                                                                            None                                                                               .004"                                                                               4900                                                                                60% coating                 Stainless                                                                           Fe.sub.3 O.sub.4                                                                           1.7           927-100g            40% adhesive                (1" dia.)                                                                           H.sub.2 SiO.sub.3                                                                          1.7           Knoop-                                               Kaolin - Ajax P                                                                            1.0           890-100g                                             H.sub.2 O   10.2          Knoop                                      416-2                                                                               416  H.sub.2 SiO.sub.3                                                                          5.0  5x   1x  9-10 Mohs                                                                            None                                                                               .013"                                                                               5560                                                                                10% coating                 Stainless                                                                           Kaolin - Ajax P                                                                            1.2           769-100g            90% adhesive                (1" dia.)                                                                           H.sub.2 O                 Knoop-                                                                         777-300g                                                                       Vickers                                    416-3                                                                               416  Alcoa A-5 (-325 mesh)                                                                      5.0  7x   1x  9-10 Mohs                                                                            None                                                                               .016"                                                                               5460                                                                                100% adhesive               Stainless                                                                           H.sub.2 SiO.sub.3                                                                          1.0           1163-100g                                       (1" dia.)                                                                           Kaolin - Ajax P                                                                            0.6           Knoop-                                               H.sub.2 O   0.6           1177-300g                                                                      Vickers                                    P-1  An-355                                                                              H.sub.2 SiO.sub.3                                                                          5.0  7x   1x  907-100g                                                                             None                                                                               .012"                                                                               6680                                                                                75% coating                 Stainless                                                                           Kaolin - Ajax P                                                                            1.0           Knoop               25% adhesion                (1/2"×3")                                                                     H.sub.2 O   7.5                                                      P-2  An-355                                                                              H.sub.2 SiO.sub.3                                                                          5.0  7x   1x  879-100g                                                                             None                                                                               .006"                                                                               6730                                                                                25% coating                 Stainless                                                                           Fe.sub. 3 O.sub.4                                                                          1.0           Knoop               75% adhesion                (1/2"×3")                                                                     Kaolin - Ajax P                                                                            1.0                                                                H.sub.2 O   8.2                                                      P-3  An-355                                                                              H.sub.2 SiO.sub.3                                                                          3.0  7x   1x  9-10 Mohs                                                                            None                                                                               .008"                                                                               8030                                                                                15% coating                 Stainless                                                                           Fe.sub.3 O.sub.4                                                                           2.0           1355-100g           85% adhesive                (1/2"×3")                                                                     Kaolin - Ajax P                                                                            1.0           Knoop-                                               H.sub.2 O   9.2           1148-300g                                                                      Vickers                                    A    Titanium                                                                            H.sub.2 SiO.sub.3                                                                          1.7  5x   1x  9-10 Mohs                                                                            None                                                                               ˜.018"                                                                        8100                                                                                10% coating                 (1/2"×2")                                                                     Fe.sub.3 O.sub.4                                                                           1.6                               85% adhesive                     Cr.sub.2 O.sub.3                                                                           1.6                                                                Kaolin - Ajax P                                                                            1.0                                                                H.sub.2 O   10.2                                                     21   440 C                                                                               H.sub.2 SiO.sub.3                                                                          2.5  5x   1x  8-9 Mohs                                                                             None                                                                               ˜.015"                                                                        N.M. --                          Stainless                                                                           Fe(-325 mesh)                                                                              2.5                                                                Kaolin - Ajax P                                                                            1.5                                                                H.sub.2 O   9.0                                                      35   Inconel                                                                             Fe(-325 mesh)                                                                              5.0  3x   1x  7-8 Mohs                                                                             None                                                                               ˜.012"                                                                        N.M. --                               Kaolin - Ajax P                                                                            1.0                                                                H.sub.2 O   6.5                                                      __________________________________________________________________________

                                      TABLE CXXX                                   __________________________________________________________________________     THERMAL SHOCK TESTS FOR CHEMICALLY BONDED COATINGS APPLIED TO A                VARIETY OF METAL SUBSTRATES USING WATER AND LIQUID NITROGEN QUENCHING          TECHNIQUE                                                                                                              Final                                                               Parts H.sub.2 CrO.sub.4                                                                   H.sub.3 PO.sub.4                                                                    H.sub.2 O Quench                                                                        L.N. Quench              Sample No.                                                                           Metal Substrate                                                                          Coating Formulation                                                                         (By Wt.)                                                                             Impreg.                                                                             Impreg.                                                                             from 1200° F.                                                                    from 1200°        __________________________________________________________________________                                                           F.                       A-3   Titanium Type A                                                                          Alcoa A-14(-325 mesh)                                                                       5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              Kaolin - Ajax P                                                                             0.5             other failure                                                                           other failure                            H.sub.2 O    8.25                                              A-5   Titanium Type A                                                                          Alcoa A-14 (-325 mesh)                                                                      5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              Kaolin - Ajax P                                                                             1.0             other failure                                                                           other failure                            H.sub.2 O    6.0                                               A-7   Titanium Type A                                                                          Alcoa A-14 (-325 mesh)                                                                      5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              Kaolin - Ajax P                                                                             1.0             other failure                                                                           other failure                            H.sub.2 O    9.0                                               A-51  Titanium Type A                                                                          Alcoa T-61 (-325 mesh)                                                                      5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              milled 48 hours              other failure                                                                           other failure                            Kaolin - Ajax P                                                                             0.5                                                               H.sub.2 O    5.5                                               A-39  Titanium Type A                                                                          Alcoa T-61 (-325 mesh)                                                                      5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              Kaolin - Ajax P                                                                             0.5             other failure                                                                           other failure                            H.sub.2 O    5.0                                               A-36  Titanium Type A                                                                          Alcoa A-14 (-325 mesh)                                                                      5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              Kaolin - Ajax P                                                                             0.5             other failure                                                                           other failure                            H.sub.2 O    8.25                                              A-61  Titanium Type A                                                                          Meller 99.98% Al.sub.2 O.sub.3                                                              5.0   13x  None no cracks or                                                                            no cracks or                   (1/2" dia.)                                                                              (1-30 μ)                  other failure                                                                           other failure                            Kaolin - Ajax P                                                                             0.6                                                               H.sub.2 O    5.5                                               C-1   416 Stainless                                                                            Alcoa A-5 (-325 mesh)                                                                       1.6   13x  None no cracks or                                                                            no cracks or                   (3/4" dia.)                                                                              Fe.sub.3 O.sub.4  (pigment grade)                                                           1.7             other failure                                                                           other failure                            H.sub.2 SiO.sub.3                                                                           1.7                                                               Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    9.2                                               C-2   Inconel   Alcoa A-5 (-325 mesh)                                                                       2.5   10x  1x   no cracks or                                                                            no cracks or                   (3/4" dia.)                                                                              Fe.sub.3 O.sub.4                                                                            2.5             other failure                                                                           other failure                            Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    8.5                                               C-3   416 Stainless                                                                            Alcoa A-5 (-325 mesh)                                                                       10x   1x   no cracks or                                                                        no cracks or                            (3/4" dia.)                                                                              Fe.sub.3 O.sub.4                                                                            2.0             other failure                                                                           other failure                            Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    8.1                                               C-4   Inconel   Cr.sub.2 O.sub.3                                                                            2.5   10x  1x   no cracks or                                                                            no cracks or                   (3/4" dia.)                                                                              H.sub.2 SiO.sub.3                                                                           2.5             other failure                                                                           other failure                            Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    8.5                                               C-5   440C - Stainless                                                                         Cr.sub.2 O.sub.3                                                                            1.6    9x  1x   no cracks or                                                                            no cracks or                   (11/2" dia.)                                                                             Fe.sub.3 O.sub.4                                                                            1.7             other failure                                                                           other failure                            H.sub.2 SiO.sub.3                                                                           1.7                                                               Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    10.2                                              C-8   Inconel   H.sub.2 SiO.sub.3                                                                           3.0    7x  1x   no cracks or                                                                            no cracks or                   (3/4" dia.)                                                                              Fe.sub.3 O.sub.4                                                                            2.0             other failure                                                                           other failure                            Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    10.2                                              C-12  Inconel   H.sub.2 SiO.sub.3                                                                           5.0    5x  1x   no cracks or                                                                            no cracks or                   (3/4" dia.)                                                                              Kaolin - Ajax P                                                                             1.5             other failure                                                                           other failure                            H.sub.2 O    9.0                                               C-18  Titanium  H.sub.2 SiO.sub.3                                                                           5.0    8x  1x   no cracks or                                                                            no cracks or                   (1/2"×2")                                                                          Fe.sub.3 O.sub.4                                                                            1.0             other failure                                                                           other failure                            Kaolin - Ajax P                                                                             1.5                                                               H.sub.2 O    9.4                                               C-48  Titanium  Alcoa A-3 (-325 mesh)                                                                       5.0    3x  None no cracks or                                                                            no cracks or                   (1/2"×2")                                                                          100% H.sub.2 CrO.sub.4                                                                      2.8             other failure                                                                           other failure                            H.sub.2 O    1.0                                               C-26  Titanium  Alcoa A-5 (-325 mesh)                                                                       1.6    7x  None no cracks or                                                                            no cracks or                   (1/2"×2")                                                                          SnO          1.7             other failure                                                                           other failure                            Fe.sub.3 O.sub.4                                                                            1.7                                                               Kaolin - Ajax P                                                                             1.5                                                               H.sub.2 O    9.0                                               __________________________________________________________________________

                                      TABLE CXXXI                                  __________________________________________________________________________     EXAMPLES OF CERAMIC COATING FORMULATIONS THAT HAVE EXHIBITED                   GOOD BONDING CHARACTERISTICS TO SOME NON-METAL SUBSTRATES                                                       Final                                               Metal             Parts                                                                               H.sub.2 CrO.sub.4                                                                  H.sub.3 PO.sub.4                                                                        Cracks                                                                              Coating                                                                              Bond Type                 Sample No.                                                                           Substrate                                                                           Coating Formulation                                                                         (by Wt.)                                                                            Impreg.                                                                            Impreg.                                                                            Hardness                                                                            (zyglo)                                                                             Thickness                                                                            Strength                                                                            Failure              __________________________________________________________________________     C-58  Alumina                                                                             H.sub.2 SiO.sub.3                                                                           1.0  3x  1x  6-7 Mohs                                                                            --   --    --   --                         (Al.sub.2 O.sub.3)                                                                  Alcoa A-3 (-325 mesh)                                                                       4.0                                                               100% H.sub.2 CrO.sub.4                                                                      2.1                                                               H.sub.2 O    1.0                                                    C-55  Beryllio                                                                            Cr.sub.2 O.sub.3                                                                            5.0  2x  1x  6-7 Mohs                                                                            --   --    --   --                         (BeO)                                                                               Kaolin - Ajax P                                                                             1.0                                                               H.sub.2 O    7.0                                                    __________________________________________________________________________

It has also been found that formulations composed chiefly of metal powders can be used to make well adhering, dense and hard coatings when applied to a variety of metal and non-metal substrates. In this case, it appears that a strong chemical type bond is made between the oxide layer on the metal particles and the chromic oxide formed during the chromic acid impregnation-cure cycle.

A number of these powdered metal coating formulations are listed in Table CXXXII. Those listed have been found to have excellent adherence and in many cases have been tested using the liquid nitrogen and water quench thermal shock method previously described for ceramic coatings. These high percentage metal coatings have also been found to possess noticeable ductility. For example, a center punch will generally simply produce a dent by displacing some of the coating material rather than chipping or fracturing the coating under the center punch as in the case of most of the predominantly ceramic coatings described earlier.

Table CXXXIII lists a few miscellaneous type coatings applied to metal and non-metal substrates. These include coatings composed mainly of finely powdered silicon carbide, boron carbide, tungsten carbide and glass. In the case of the carbide materials, there may not be a chemical bond to the chromic oxide. However, the chromic oxides will undoubtedly surround the carbide particles or otherwise form an interlocking bond to itself as well as to the coating substrate. In the case of the powdered glass coating formulation, a chemical bond between the chromic oxide and the glass does probably occur because of the high percentage of silica and other oxides present.

It can be seen that many other metal and non-metal coatings can be applied using this wet slurry method with subsequent hardening by the chemical treatment method of this invention. A wide variety of reinforcing materials can, of course, also be incorporated into the coating mixtures.

                                      TABLE CXXXII                                 __________________________________________________________________________     SELECTED COATING FORMULATIONS                                                  USING METAL POWDERS APPLIED TO VARIOUS SUBSTRATES                                                                      Final                                                               Parts H.sub.2 CrO.sub.4                                                                   H.sub.3 PO.sub.4                                                                    H.sub.2 O Quench                                                                        L.N. Quench              Sample No.                                                                            Metal Substrate                                                                          Coating Formulation                                                                        (By Wt.)                                                                             Impreg.                                                                             Impreg.                                                                             from 1200° F.                                                                    from 1200°        __________________________________________________________________________                                                           F.                       C-32   Titanium  Chromium (-325 mesh)                                                                       5.0   2x   None no cracks or                                                                            no cracks or                    (1/2"×2")                                                                          Kaolin - Ajax P                                                                            1.5             other failure                                                                           other failure                             H.sub.2 O   5.0                                               C-34   440C Stainless                                                                           Titanium (-325 mesh)                                                                       5.0   2x   None no cracks or                                                                            no cracks or                    (11/2 " dia.)                                                                            Kaolin - Ajax P                                                                            1.0             other failure                                                                           other failure                             H.sub.2 O   5.3                                               C-36   Inconel   Titanium    5.0   3x   1x   no cracks or                                                                            no cracks or                    (3/4" dia.)                                                                              100% H.sub.2 CrO.sub.4                                                                     2.1             other failure                                                                           other failure                             H.sub.2 O   4.0                                               C-37   416 Stainless                                                                            Titanium    5.0   3x   None no cracks or                                                                            no cracks or                    (3/4" dia.)                                                                              100% H.sub.2 CrO.sub.4                                                                     4.2             other failure                                                                           other failure                             H.sub.2 O   2.5                                               C-38   440C Stainless                                                                           Titanium (-325 mesh)                                                                       5.0   2x   None no cracks or                                                                            no cracks or                    (11/2 " dia.)                                                                            Kaolin - Ajax P                                                                             .5             other failure                                                                           other failure                             H.sub.2 O   5.2                                               X-6    Beryllium Boron (amorphous)                                                                          2.5   4x   None No cracking                                                                             not tested                                H.sub.2 SiO.sub.3                                                                          2.5             failure                                            10% H.sub.2 CrO.sub.4                                                                      6.0                                               C-50   Titanium - also                                                                          Nickel (-325 mesh)                                                                         5.0   3x   1x   no cracking or                           Aluminum Oxide                                                                           Kaolin - Ajax P                                                                            1.0             failure                                            H.sub.2 O   3.0                                               C-53   440C Stainless                                                                           Tungsten (-325 mesh)                                                                       5.0   3x   1x   no cracking or                                     Cr.sub.2 O.sub.3                                                                           2.1             failure                                            H.sub.2 O   2.0                                               C-54   416 Stainless-                                                                           316 Stainless Steel                                                  also Beryllium                                                                           (-325 mesh) 5.0   3x   1x   no cracking or                           Oxide     Kaolin - Ajax P                                                                            1.0             failure                                            H.sub.2 O   4.0                                               __________________________________________________________________________

                                      TABLE CXXXIII                                __________________________________________________________________________     SOME SELECTED MISCELLANEOUS COATING MATERIALS                                  APPLIED TO METAL AND NON-METAL SUBSTRATES                                                                         Final                                             Metal              Parts H.sub.2 CrO.sub.4                                                                  H.sub.3 PO.sub.4                                                                        Cracks                                                                             Coating                                                                              Bond Type                Sample No.                                                                           Substrate                                                                             Coating Formulation                                                                        (By Wt.)                                                                             Impreg.                                                                            Impreg.                                                                            Hardness                                                                            (zyglo)                                                                            Thickness                                                                            Strength                                                                            Failure             __________________________________________________________________________     C-52  440C   Silicon Carbide                                                                            5.0   3x  1x  6-7 Mohs                                                                            N.M.                                                                               ˜.010"                                                                         N.M. --                        Stainless-                                                                            100% H.sub.2 CrO.sub.4                                                                     2.1                                                         Also   H.sub.2 O   1.0                                                         Titanium                                                                 C-56  Titanium+                                                                             Boron Carbide                                                                              5.0   3x  1x  6-7 Mohs                                                                            N.M.                                                                               ˜.010"                                                                         N.M. --                        Inconel                                                                               100% H.sub.2 CrO.sub.4                                                                     2.1                                                                H.sub.2 O   2.5                                                   N-20  440C   Titania-Lead Glass                                                                         5.0   3x  1x  N.M. N.M.                                                                               ˜.010"                                                                         N.M. --                        Stainless                                                                             (-325 mesh)                                                             (11/2 "                                                                               10% H.sub.2 CrO.sub.4                                                                      2.0                                                         dia.)                                                                    __________________________________________________________________________

It has also been observed that a thin but very hard, tough and extremely well adhering coating was built up on the exposed surfaces of many of the metal substrates after several chromic acid cure cycles.

Subsequent experimentation has shown that these very thin, dark green protective coatings can be readily formed on such metals as 400 series stainless steel, titanium, inconel and aluminum. The coating has also been applied to beryllium copper, steel and 300 series stainless steel, although with somewhat less adherence.

It is expected that most any metal that will form a well adhereing oxide coating can be successfully protected in this manner. As mentioned earlier in connection with ceramic and metal coatings, it is felt that the chromic oxide formed during the chromic acid heat conversion cycles produces a strong chemical bond to the porous oxide layer formed on the metal. When using hard to oxidize metals such as titanium, it has been found that a heavier, more tenacious coating will result if the metal is preoxidized prior to the multiple chromic acid impregnation-cure cycles. While the hardness of very thin coatings prepared in this way is difficult to measure, scratch tests will usually give Moh scale values of at least 8 to 9 after a few chromic acid application-cure cycles.

While there have been described what at present are considered to be the preferred embodiments of this invention, it will be obvious to those skilled in the art that various changes and modifications may be made therein without departing from the invention. It is aimed, therefore, in the appended claims to cover all such changes and modifications which fall within the true spirit and scope of the invention. 

What is claimed is:
 1. A method of producing a chemically hardened abrasive body which comprises:closely packing finely divided discrete relatively fine refractory oxide particles, at least the surface of said particles consists of a refractory oxide of at least one metallic element having a vitrification temperature in excess of 600° F., and including a substantial amount of relatively coarse abrasive grain to form a porous structure; impregnating said porous structure with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of said refractory particles and grain; drying and curing said impregnated structure by heating same to a temperature below the vitrification and sinter temperatures of the particles and grain but sufficient to convert the chromium compound to an oxide; and, repeating the impregnation and heat curing steps at least once to harden and densify the structure.
 2. The method of claim 1 wherein at least the surface of the particles is selected from the group of inorganic refractories consisting of oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium harnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof.
 3. The method of claim 1 wherein the solution is chromic acid.
 4. The method of claim 1 which includes as a last step the impregnation of the hardened abrasive structure with phosphoric acid and heating and curing said structure by raising the temperature thereof to at least about 600° F., but below the vitrification and sinter temperature of the refractory particles and grain in increments over a period of time sufficient to completely dry and harden the structure.
 5. The method of claim 1 wherein a clay or inorganic chromium compound binder is mixed with the finely divided particles prior to forming the structure which serves to hold the particles together during the impregnation and cure cycles.
 6. The method of claim 1 wherein the abrasive grain is selected from the group of abrasive grains consisting of chromia, tin oxide, titania, aluminum oxide, black silicon carbide, green silicon carbide, bauxite, silicic acid, iron oxide, diamonds and mixtures thereof.
 7. A method of producing a chemically hardened abrasive body which comprises:closely packing finely divided discrete relatively fine refractory particles having a vitrification temperature in excess of 600° F. and including a substantial amount of relatively coarse abrasive grain to form a porous structure; impregnating said porous structure with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of refractory particles and grain; drying and curing said impregnated structure by heating same to a temperature below the vitrification and sinter temperature of the particles and grain but sufficient to convert the chromium compound to an oxide; and, repeating the impregnation and heat curing steps at least once to harden and densify the structure.
 8. The method of claim 7 wherein the refractory particles and grain are packed into a mold of predetermined shape at least during the initial impregnation and cure steps.
 9. The method of claim 7 wherein a clay or inorganic chromium compound binder is mixed with the finely divided particles prior to forming the structure which serves to hold the particles together during the impregnation and cure cycles.
 10. The method of claim 7 wherein the abrasive grain is selected from the group of abrasive grains consisting of chromia, tin oxide, titania, aluminum oxide, black silicon carbide, green silicon carbide, bauxite, silicic acid, iron oxide, diamonds and mixtures thereof.
 11. The method of claim 7 wherein the particles are selected from the group of inorganic refractories consisting of oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium, hafnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof.
 12. The method of claim 7 wherein the solution is chromic acid.
 13. The method of claim 7 which includes as a last step the impregnation of the hardened abrasive structure with phosphoric acid and heating and curing said structure by raising the temperature thereof to at least about 600° F., but below the vitrification and sinter temperature of the refractory particles and grain in increments over a period of time sufficient to completely dry and harden the structure.
 14. A method of producing a chemically hardened abrasive body which comprises:providing a non-vitrified skeletal core of relatively fine inorganic refractory material having a vitrification temperature in excess of 600° F. and including a substantial amount of relatively coarse abrasive grain; impregnating said core with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of said refractory material and abrasive grain; drying and curing said impregnated core by heating the core to a temperature below the vitrification and sinter temperature of said refractory material and abrasive grain but sufficient to convert the chromium compound to an oxide; and repeating the impregnation and heat curing steps at least once to harden and densify the core.
 15. The method of claim 14 wherein the skeletal core is of a material selected from the group of inorganic refractories consisting of oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium, hafnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof.
 16. The method of claim 14 wherein the abrasive grain is selected from the group of abrasive grains consisting of chromia, tin oxide, titania, aluminum oxide, black silicon carbide, green silicon carbide, bauxite, silicic acid, ferric oxide, diamonds and mixtures thereof.
 17. The method of claim 14 wherein the solution is chromic acid.
 18. The method of claim 14 which includes as a last step the impregnation of the hardened abrasive structure with phosphoric acid and heating and curing said structure by raising the temperature thereof to at least about 600° F., but below the vitrification and sinter temperature of the refractory particles and grain in increments over a period of time sufficient to completely dry and harden the structure.
 19. The method of claim 1 wherein the abrasive grain is silicon carbide.
 20. The method of claim 7 wherein the abrasive grain is silicon carbide.
 21. The method of claim 14 wherein the abrasive grain is silicon carbide.
 22. The method of claim 1 wherein the abrasive grain is diamond.
 23. The method of claim 7 wherein the abrasive grain is diamond.
 24. The method of claim 14 wherein the abrasive grain is diamond.
 25. The method of claim 1 wherein the abrasive grain is aluminum oxide.
 26. The method of claim 7 wherein the abrasive grain is aluminum oxide.
 27. The method of claim 14 wherein the abrasive grain is aluminum oxide.
 28. A method of producing a grinding structure which comprises:wetting abrasive grains selected from the group consisting of chromia; tin oxide; titania; aluminum oxide; black silicon carbide; green silicon carbide; bauxite; silicic acid; ferric oxide; diamonds; and, mixtures thereof with a solution of a chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of said abrasive grains; heating said wetted grains to a temperature below the vitrification and sinter temperature of the grains but sufficient to convert the chromium compound to an oxide; repeating the wetting and heat curing steps at least once to increase the hardness of the oxide; and, bonding the abrasive grains into a grinding structure with a bonding material selected from the group of bonding materials consisting of resin, clay, alumina and soluble inorganic chromium compound binders.
 29. The method of claim 28 wherein the bonding of the abrasive grains is with a resin bonding material.
 30. The method of claim 28 wherein the bonding of the abrasive grains is by:closely packing the abrasive grains to form a porous structure; impregnating the porous structure with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of the abrasive grains; heat curing the impregnated structure to a temperature below the vitrification and sinter temperature of the grains but sufficient to convert the chromium compound to the oxide; and, repeating the impregnation and heat curing steps at least once to harden and densify the structure.
 31. A method of producing a chemically hardened refractory abrasive body having a cutting surface which comprises:wetting finely divided relatively fine refractory oxide particles having a vitrification temperature in excess of 600° F. selected from the group consisting of the oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium, hafnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of the refractory particles and relatively coarse abrasive grain; heating said wetted fine particles and coarse grain to a temperature sufficient to convert said chromium compound to the oxide but below the vitrification and sinter temperature of said particles and grain; closely packing the treated particles and grain to form a porous body; impregnating said porous body with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated to a temperature below the vitrification temperature of the particles and grain; curing said impregnated body by heating same to a temperature sufficient to convert said chromium compound to the oxide, but below the vitrification and sinter temperature of the particles and grain; amd, repeating the impregnation and heating steps at least once to harden and densify the body.
 32. A method of producing an abrasive structure which comprises:wetting abrasive grains selected from the group consisting of chromia, tin oxide, titania, aluminum oxide, black silicon carbide, green silicon carbide, bauxite, silicic acid, ferric oxide, diamonds and mixtures thereof with a wetting reagent selected from the group consisting of a solution of an inorganic chromium compound capable of being converted to an oxide on being heated; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus kaolin; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus aluminum oxide; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus Kentucky ball clay; and, a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus bentonite; heating said wetting grains to a temperature sufficient to convert the chromium compound on the surface thereof to an oxide but below the vitrification and sinter temperature of the grains to cure said chromium compound to an oxide; subjecting the grains to repeated wetting and curing steps until the desired hardness of the oxide is achieved; and, bonding the abrasive grains into a grinding structure with a binder selected from the group of binder materials consisting of resin, clay, alumina and soluble inorganic chromium compound binders.
 33. The method of claim 32 wherein the wetting agent is a solution of a chromium compound and the oxide is chromium oxide.
 34. The method of claim 32 wherein the bonding of the abrasive grains is by:closely packing the abrasive grains to form a porous structure; impregnating the porous structure with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated; curing said impregnated structure by heating same to a temperature sufficient to convert the chromium compound to the oxide but below the vitrification and sinter temperature of the grains; and, repeating the impregnation and curing steps at least once to harden and densify the grinding structure.
 35. The method of claim 33 wherein the bonding of the abrasive grains is with a resin bonding material.
 36. The method of hardening and strengthening of a fully sintered porous grinding structure which comprises:impregnating the structure with a solution of an inorganic chromium compound capable of being converted to an oxide on being heated; curing said impregnated structure by heating same to a temperature sufficient to convert the chromium compound to the oxide but below the vitrification and sinter temperature of the structure; and, repeating the impregnation and curing steps at least once to harden and densify the grinding structure.
 37. A method of making crushed abrasive grain which comprises the steps of:closely packing finely divided relatively fine abrasive particles selected from the group consisting of chromia; tin oxide; titania; aluminum oxide; black silicon carbide; green silicon carbide; bauxite; silicic acid; ferric oxide; diamonds; and, mixtures thereof having a vitrification in excess of 600° F. to form a porous structure; impregnating said porous structure with a solution of an impregnant selected from the group consisting of a solution of an inorganic chromium compound capable of being converted to an oxide on being heated; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus kaolin; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus bentonite; a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus aluminum oxide; and a solution of an inorganic chromium compound capable of being converted to an oxide on being heated plus Kentucky ball clay; drying and curing said impregnated structure by heating same to a temperature below the vitrification and sinter temperature thereof but sufficient to convert the chromium compound to the oxide; repeating the impregnation and heat curing steps at least once to harden and densify the structure; and, crushing the structure to form coarse abrasive grains.
 38. The method of making a diamond grinding wheel which comprises the steps of:forming a slurry of diamond abrasive grains in a solution of an inorganic chromium compound capable of being converted to an oxide at a temperature of at least 600° F., but below that at which the diamond grains will be oxidized; applying a coating of diamond and chromium compound slurry to the grinding surface of a porous abrasive grinding wheel made from an abrasive material selected from the group consisting of silicon carbide, aluminum oxide and mixtures thereof; and, drying and curing the grinding wheel by hearting same to a temperature of at least 600° F., but below vitrification and/or sinter temperatures at which the diamond grains will be oxidized.
 39. The method of claim 38 in which the slurry includes a substantial amount of silicon carbide grinding grains.
 40. A chemically hardened abrasive body comprising:a closely packed porous mass of a substantial amount of abrasive grain and finely divided discrete particles at least the surface of which consists of a refractory oxide of at least one metallic element having a vitrification temperature in excess of 600° F. essentially devoid of vitreous and/or sinter bonding between the particles with said particles being bonded together by chromic oxide at temperatures below vitrification temperature of the refractory oxide and grain and having substantial deposits of chromic oxide within the pores thereof.
 41. A chemically hardened abrasive oxide body comprising:a closely packed porous mass of a substantial amount of abrasive grain and finely divided discrete particles of a refractory oxide having a vitrification temperature in excess of 600° F. essentially devoid of vitreous and/or sinter bonding between the particles with said particles being bonded together by chromic oxide at temperatures below vitrification temperature of the refractory oxide and grain oxide within the pores thereof.
 42. A body according to claim 40 wherein the abrasive grain is selected from the group consisting of chromia; tin oxide; titania; aluminum oxide; black silicon carbide; green silicon carbide; bauxite; silicic acid; ferric oxide; diamonds; and, mixtures thereof and the refractory oxide is selected from the group consisting of oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium, hafnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof.
 43. A body according to claim 41 wherein the abrasive grain is selected from the group consisting of chromia, tin oxide; titania; aluminum oxide; black silicon carbide; green silicon carbide; bauxite; silicic acid; ferric oxide; diamonds; and, mixture thereof and the refractory oxide is selected from the group consisting of oxides of aluminum, barium, beryllium, calcium, cerium, chromium, cobalt, copper, gallium, hafnium, iron, lanthanum, magnesium, manganese, molybdenum, nickel, niobium, silicon, tantalum, thorium, tin, titanium, tungsten, uranium, vanadium, yttrium, zinc, zirconium, and mixtures thereof.
 44. A body according to claim 43 wherein the refractory oxide is selected from the group consisting of aluminum oxide and silicon carbide.
 45. A body according to claim 44 where the refractory oxide is aluminum oxide. 